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Artificial Intelligence

AI-BRINGSJORD2000. Selmer Bringsjord and Hong Xiao. A refutation of Penrose's Godelian case adanst artificial intelligence. J. Expt. Theor. Artif. Intell. 12(2000)307-329
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AI-SEARLE1982. John Searle. Minds, Brains and Programs. Behavioral and Brain Sciences 3 (3): 417-427
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AI-SHAKIROV2016. Vladimir Shakirov. Review of state-of-the-arts in artificial intelligence. Present and future of AI. ???
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AI-ZHELTIKOV2018. А.М. Жёлтиков. Критика квантового разума: измерение, сознание, отложенный выбор и утраченная когерентность. УФН, т.188(2018), No 10, С.1119-1129
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Миссия AMS-02.

AMS-02-2008-NIM. Roberto Battiston, on behalf of the AMS-02 Collaboration. The antimatter spectrometer (AMS-02): A particle physics detector in space. [Сверхпроводящий магнит] Nuclear Instruments and Methods in Physics Research A 588 (2008) 227-234.
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AMS-02-2012-JModPhysE. Andrei Kounine, on behalf of the AMS-02 Collaboration. The Alpha Magnetic Spectrometer on the International Space Station. [Постоянный магнит] International Journal of Modern Physics E Vol. 21, No. 8 (2012) 1230005 (31 pages).
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AMS-02-2013-CERN-COURIER. Manuel Aguilar, on behalf of the AMS collaboration.. AMS-02 provides a precise measure of cosmic rays. CERN Courier, 2013, V. 53, No 8, P. 22-26.
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AMS-02-2013-PRL-PosToEl. AMS-02 Collaboration: M. Aguilar, G. Alberti, B. Alpat, et al. First Result from the Alpha Magnetic Spectrometer on the International Space Station: Precision Measurement of the Positron Fraction in Primary Cosmic Rays of 0.5–350 GeV. PRL 110, 141102 (2013).
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AMS-02-2013-Rio-1257. S. Schael, for the AMS Collaboration. Precision measurements of the electron spectrum and the positron spectrum with AMS. 33th ICRC, Rio-de-Janeiro, ID-1257.
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AMS-02-2013-Rio-1261. J. Casaus, on behalf of the AMS Collaboration. Determination of the positron anisotropy with AMS. 33th ICRC, Rio-de-Janeiro, ID-1261.
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AMS-02-2013-Rio-1262. V. Choutko, on behalf of the AMS Collaboration. Precision Measurement of the Cosmic Ray Helium Flux with AMS Experiment. 33th ICRC, Rio-de-Janeiro, ID-1262.
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AMS-02-2013-Rio-1264. A. Kounine, on behalf of the AMS Collaboration. Precision measurement of the positron fraction in primary cosmic rays of 0.5−350 GeV. 33th ICRC, Rio-de-Janeiro, ID-1264.
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AMS-02-2013-Rio-1265. S. Haino, on behalf of the AMS Collaboration. Precision measurement of the proton ﬂux with AMS. 33th ICRC, Rio-de-Janeiro, ID-1265.
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Презентации нет.
AMS-02-2013-Rio-1266. A. Oliva, on behalf of the AMS Collaboration. Precision Measurement of the Cosmic Ray Boron-to-Carbon Ratio with AMS. 33th ICRC, Rio-de-Janeiro, ID-1266.
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AMS-02-2013-Rio-1267. B.Bertucci, on behalf of the AMS Collaboration. Precision measurement of the e$^+$ + e$^−$ spectrum with AMS. 33th ICRC, Rio-de-Janeiro, ID-1267.
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AMS-02-2014-arXiv-ElecAndPos. Claudio Corti, for the AMS collaboration. The cosmic ray electron and positron spectra measured by AMS-02. arXiv:1402.0437 [physics.ins-det].
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AMS-02-2014-arXiv-p. C. Consolandi, on Behalf of the AMS-02 Collaboration. Primary Cosmic Ray Proton Flux Measured by AMS-02. arXiv:1402.0467 [astro-ph.HE].
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AMS-02-2014-PDU. Roberto Battiston, on behalf of the AMS Collaboration. Precision measurements of $e^+$ $e^−$ in Cosmic Ray with the Alpha Magnetic Spectrometer on the ISS. Physics of the Dark Universe 4 (2014) 6-9.
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AMS-02-2014-PRL1. L. Accardo, M. Aguilar, D. Aisa, et al (AMS collaboration) High Statistics Measurement of the Positron Fraction in Primary Cosmic Rays of 0.5–500 GeV with the Alpha Magnetic Spectrometer on the International Space Station. PRL 113, 121101 (2014).
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AMS-02-2014-PRL2. M. Aguilar, D. Aisa, A. Alvino, et al (AMS collaboration) Electron and Positron Fluxes in Primary Cosmic Rays Measured with the Alpha Magnetic Spectrometer on the International Space Station. PRL 113, 121102 (2014).
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AMS-02-2014-arXiv-TRD. Andreas Obermeier, Michael Korsmeier Cross-calibration of the Transition Radiation Detector of AMS-02 for an Energy Measurement of Cosmic-Ray Ions. arXiv:1411.3329 [astro-ph.IM].
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AMS-02-2014-PRL2. M. Aguilar, D. Aisa, B. Alpat, et al (AMS collaboration). Precision Measurement of the (e+ + e-) Flux in Primary Cosmic Rays from 0.5 GeV to 1 TeV with the Alpha Magnetic Spectrometer on the International Space Station. PRL 113, 221102 (2014).
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AMS-02-2015-PRL-p. M. Aguilar, D. Aisa, B. Alpat, A. Alvino et al. (AMS-02 Collaboration). Precision Measurement of the Proton Flux in Primary Cosmic Rays from Rigidity 1 GV to 1.8 TV with the Alpha Magnetic Spectrometer on the International Space Station . PRL 114, 171103 (2015).
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AMS-02-2015-PRL-He. M. Aguilar, D. Aisa, B. Alpat, A. Alvino et al. (AMS-02 Collaboration). Precision Measurement of the Helium Flux in Primary Cosmic Rays of Rigidities 1.9 GV to 3 TV with the Alpha Magnetic Spectrometer on the International Space Station . PRL 115, 211101 (2015).
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AMS-02-2016-PRL-AntP-P. M. Aguilar, D. Aisa, B. Alpat, A. Alvino et al. (AMS-02 Collaboration). Antiproton Flux, Antiproton-to-Proton Flux Ratio, and Properties of Elementary Particle Fluxes in Primary Cosmic Rays Measured with the Alpha Magnetic Spectrometer on the International Space Station. PRL 117, 091103 (2016).
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AMS-02-2016-PRL-BtoC. M. Aguilar, D. Aisa, B. Alpat, A. Alvino et al. (AMS-02 Collaboration). Precision Measurement of the Boron to Carbon Flux Ratio in Cosmic Rays from 1.9 GV to 2.6 TV with the Alpha Magnetic Spectrometer on the International Space Station. PRL 117, 231102 (2016).
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AMS-02-2015-TOMASETTI. Nicola Tomassetti. AMS-02 in Space: Physics Results. J. Phys. Conf. 650 (2015) 012001 [arXiv:1511.05890 [astro-ph.HE]]
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AMS-02-2015-JIN-WU-ZHOU. Hong-Bo Jin, Yue-Liang Wu, Yu-Feng Zhou. Cosmic ray propagation and dark matter in light of the latest AMS-02 data. 2015JCAP...09..049J [arXiv:1410.0171 [hep-ph]]
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Общая астрофизика

APH-BAHCALL1982. John N. Bahcall, Walter F. Huebner, Stephen H. Lubow, Peter D. Parker, Roger K Ulrich. Standard solar models and the uncertainties in predicted capture rates of solar neutrinos. Reviews of Modern Physics, Volume 54, Issue 3, July 1982, pp.767-799
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APH-BALL2009. Nicholas M. Ball, Robert J. Brunner Data Mining and Machine Learning in Astronomy. arXiv:0906.2173v2 [astro-ph.IM]
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APH-BERGHOEFER2002. T. W. Berghoefer, D. Breitschwerdt. "The origin of the young stellar population in the solar neighborhood - a link to the formation of the Local Bubble?. Astronomy and Astrophysics 390 (1): 299-306 (arXiv:astro-ph/0205128v2)
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APP-FERRIERE2001. Katia M. Ferriere The Interstellar Environment of our Galaxy. Rev.Mod.Phys.73:1031-1066,2001, arXiv:astro-ph/0106359v1
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APH-FRISCH1983. P.C. Frisch, D.G. York. Synthesis maps of ultraviolet observations of neutral interstellar gas. Astrophysical Journal, Part 2 - Letters to the Editor (ISSN 0004-637X), vol. 271, Aug. 15, 1983, p. L59-L63
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APH-GREEN2009. D. A. Green A revised Galactic supernova remnant catalogue. 2009, BASI, 37, 45-61, arXiv:0905.3699v2 [astro-ph.HE]
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APH-PORTER2005. T. A. Porter, A. W. Strong A new estimate of the Galactic interstellar radiation field between 0.1 microns and 1000 microns. arXiv:astro-ph/0507119v1
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APH-VAZQUEZ2008. R.A. Vázquez, Jorge May, Giovanni Carraro, Leonardo Bronfman, André Moitinho, Gustavo Baume. Spiral Structure in the Outer Galactic Disk. I. The Third Galactic Quadrant. [см. также http://en.wikipedia.org/wiki/Orion–Cygnus_Arm] The Astrophysical Journal, 2008, Volume 672, Issue 2, pp. 930-939.
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APH-WANG2013. Shuang Wang, Yun-He Li, Xin Zhang. Exploring the evolution of color-luminosity parameter β and its effects on parameter estimation. arXiv:1310.6109 [astro-ph.CO]
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Астрофизика - магнитные поля

APHM-BECK2008. Rainer Beck Measuring interstellar magnetic fields by radio synchrotron emission. arXiv:0812.4925v1 [astro-ph]
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APHM-FRISCH1996. P.C. Frisch. LISM structure — Fragmented superbubble shell? Space Science Reviews, Volume 78, Issue 1-2, pp. 213-222
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APHM-BECK1996. Rainer Beck,Axel Brandenburg,David Moss,Anvar Shukurov,Dmitry Sokoloff. GALACTIC MAGNETISM: Recent Developments and Perspectives. Annu. Rev. Astron. Astrophys. 1996. 34:155–206
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APHM-FERRIERE2009. Katia Ferriere Interstellar magnetic fields in the Galactic center region. arXiv:0908.2037v1 [astro-ph.GA]
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APHM-JANSSON2012. Ronnie Jansson, Glennys R. Farrar A New Model of the Galactic Magnetic Field. arXiv:1204.3662v1 [astro-ph.GA]
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APHM-OPHER2007. M. Opher, E. C. Stone, T. I. Gombosi. The Orientation of the Local Interstellar Magnetic Field. SCIENCE VOL. 316, 2007, p.875-878
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APHM-ZIRKER. J.B. Zirker The Magnetic Universe.
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AdS/CFT-соответствие

AdSCFT-JANIK2010. Romuald A. Janik The dynamics of quark-gluon plasma and AdS/CFT. arXiv:1003.3291v1 [hep-th]
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AdSCFT-HUBENY2015. Veronika E. Hubeny The AdS/CFT Correspondence. arXiv:1501.00007 [gr-qc]
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AdSCFT-KOCH2009. Robert de Mello Koch, Jeff Murugan Emergent Spacetime [We give an introductory account of the AdS/CFT correspondence in the 1/2-BPS sector of ${\cal N}=4$ super Yang-Mills theory.Six of the dimensions of the string theory are emergent in the Yang-Mills theory. In this article we suggest how these dimensions and local physics in these dimensions emerge. The discussion is aimed at non-experts.]. arXiv:0911.4817v2 [hep-th]
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AdSCFT-NATSUUME2014. Makoto Natsuume AdS/CFT Duality User Guide. arXiv:1409.3575 [hep-th]
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Астробиология

ASTROBIOL-MELLOT2007. Mikhail V. Medvedev, Adrian L. Melott Do extragalactic cosmic rays induce cycles in fossil diversity? Astrophys.J.664:879-889,2007 (arXiv:astro-ph/0602092v3)
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ASTROBIOL-PETIGURA2013. Erik A. Petigura, Andrew W. Howard, and Geoffrey W. Marcy. Prevalence of Earth-size planets orbiting Sun-like stars. PNAS 2013 ; published ahead of print November 4, 2013, doi:10.1073/pnas.1319909110
www.pnas.org/cgi/doi/10.1073/pnas.1319909110
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ASTROBIOL-WESSON2010. P. S. Wesson Panspermia, Past and Present: Astrophysical and Biophysical Conditions for the Dissemination of Life in Space. Space Science Reviews, 2010, DOI 10.1007/s11214-010-9671-x, http://www.springerlink.com/content/a382784v43773553
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Эксперимент ATIC

ATIC-1995-ISBERT-ICRC. J. Isbert, T.G. Guzik, R. Lockwood, F.B. McDonald, E.S. Seo, J.P. Wefel. Advanced Thin Ionization Calorimeter (ATIC). 24th International Cosmic Ray Conference, Vol. 3, held August 28-September 8, 1995 in Rome, Italy. Edited by N. Iucci and E. Lamanna. International Union of Pure and Applied Physics, 1995., p.718.
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ATIC-1996-GUZIK-SPIE-122. T.G. Guzik, J.H. Adams, G.L. Bashindzhagyan, A.V. Dudnik, S.B. Ellison, A.R. Fazely, L. Garcia, N.L. Grigorov, S.E. Inderhees, J. Isbert, H.C. Jung, L. Khein, S.-K. Kim, R.A. Kroeger, R. Lockwood, F.B. McDonald, M.I. Panasyuk, C.-S. Park, B. Price, W.K. Schmidt, C. Dion-Schwartz, V.G. Senchishin, E.-S. Seo, J.P. Wefel, J.Z. Wang, V.I. Zatsepin, S.Y. Zinn. Advanced Thin Ionization Calorimeter (ATIC) balloon experiment: instrumentation. Proc. SPIE Vol. 2806, p. 122-133, Gamma-Ray and Cosmic-Ray Detectors, Techniques, and Missions, Brian D. Ramsey; Thomas A. Parnell; Eds.
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ATIC-1996-SEO-SPIE-134. E.-S. Seo, J.H. Adams, G.L. Bashindzhagyan, A.V. Dudnik, A.R. Fazely, L. Garcia, N.L. Grigorov, T.G. Guzik, S.E. Inderhees, J. Isbert, H.C. Jung, L. Khein, S.-K. Kim, R.A. Kroeger, F.B. McDonald, M.I. Panasyuk, C.-S. Park, W.K. Schmidt, C. Dion-Schwartz, V.G. Senchishin, J.Z. Wang, J.P. Wefel, V.I. Zatsepin, S.Y. Zinn. Advanced Thin Ionization Calorimeter (ATIC) balloon experiment: expected performance. Proc. SPIE Vol. 2806, p. 134-144, Gamma-Ray and Cosmic-Ray Detectors, Techniques, and Missions, Brian D. Ramsey; Thomas A. Parnell; Eds.
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ATIC-1997-WANG-ICRC. J.Z. Wang, E.S. Seo, J.H.,Jr.. Adams, G.L. Bashindzhagyan, O.V. Dudnik, A.R. Fazely, N.L. Grigorov, T.G. Guzik, S.E. Inderhees, J. Isbert, L. Khein, S.K. Kim, R.A. Kroeger, F.B. McDonald, M.I. Panasyuk, C.S. Park, W.K.H. Schmidt, C. Dion-Schwarx, V.G. Senchishin, J.P. Wefel, J. Wu, V.I. Zatsepin. Cosmic Ray Shower Simulation and Reconstruction for the ATIC Experiment. 25th International Cosmic Ray Conference (held 30 July - 6 August, 1997 in Durban, South Africa), Edited by M. S. Potgieter, C. Raubenheimer, and D. J. van der Walt, Transvaal, South Africa: Potchefstroom University, 1997, Vol. 5, p.5.
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ATIC-1997-SEO-AdvSpRes. Eun-Suk Seo, J.H. Adams, G.L. Bashindzhagyan, O.V. Dudnik, A.R. Fazely, L. Garcia, N.L. Grigorov, T.G. Guzik, S. Inderhees, J. Isbert, H.C. Jung, L. Khein, S.K. Kim, R.A. Kroeger, F.B. McDonald, M.I. Panasyuk, C.S. Park, W.K.H. Schmidt, C. Dion-Schwarz, V.G. Senchishin, J.Z. Wang, J.P. Wefel, V.I. Zatsepin, S.Y. Zinn. Advanced thin ionization calorimeter to measure ultrahigh energy cosmic rays. Advances in Space Research, Volume 19, Issue 5, p. 711-718.
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ATIC-1999-GUZIK-ICRC. T.G. Guzik, J, Adams Jr, J. Ampe, G. Bashindzhagyan, P. Boberg, G. Case, J. Chang, S. Ellison, A. Fazely, G.A. Samsonov, O. Ganel, R. Gould, D. Granger, R. Gunasingha, I. Isbert, L. Khein, M. Kher, D. Khettry, H.J. Kim, K.C. Kim, I.M. Koo, Y. Kwon, L. Mommmajasyula, R. Kroeger, R. Lockwood, R. Mohan, M. Panasyuk, B. Price, W. Schmidt, C. Schwarz, M. Sen, E.S. Seo, R. Sina, M. Stewart, A. Voronon, D. Wagner, J.Z. Wang, J.P. Wefel, J. Wu, V. Zatsepin. The Advanced Thin Ionization Calorimeter (ATIC) for Studies of High Energy Cosmic Rays. 26th International Cosmic Ray Conference. August 17-25, 1999. Salt Lake City, Utah, USA. Volume 5. p.09
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ATIC-1999-KIM-ICRC. H.J. Kim, S.K. Kim, T.Y. Kim, I.M. Koo, Y. Kwon, Y.J. Han, S.H. Lee, E.I. Won, O. Ganel, E.S. Seo, J.Z. Wang. Simulation of the ion interactions for the ATIC experiment. 26th International Cosmic Ray Conference. August 17-25, 1999. Salt Lake City, Volume 1. p.17
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ATIC-1999-SCHMIDT-ICRC. W.K.H. Schmidt, J. Chang, O. Ganel, E.S. Seo, R. Sina, J.Z. Wang. On the Identification of High Energy Cosmic Ray Electrons in the Advanced Thin Ionization Calorimeter (ATIC). 26th International Cosmic Ray Conference. August 17-25, 1999. Salt Lake City, Volume 5. p.41
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ATIC-1999-GANEL-ICRC. O. Ganel, J.H. Adams Jr, J. Chang, T.G. Guzik, J. Isbert, H.J. Kim, S.K. Kim, I.M. Koo, Y. Kwon, P. Price, W. Schmidt, E.S. SEo, R. Sina, J.Z. Wang, J.P. Wefel, E.I. Won, J. Wu. Data Processing and Event Reconstruction for the ATIC Balloon Payload. 26th International Cosmic Ray Conference. August 17-25, 1999. Salt Lake City, Volume 5. p.453
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ATIC-2001-ADAMS-InstrExpTech. J. H. Adams Jr, G. L. Bashindzhagyan, V. I. Zatsepin, M. M. Merkin, M. I. Panasyuk, G. A. Samsonov, N. V. Sokol'skaya, L. A. Khein The Silicon Matrix as a Charge Detector for the ATIC Experiment. Instruments and Experimental Techniques, 2001, Volume 44, Issue 4, pp 455-461
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Приборы и техника эксперимента Т.44 (4), С.38 (2001)
ATIC-2001-ZATSEPIN-IzvRAN. В.И. Зацепин, Дж.Х. Адамс-мл., Х.С. Ан, Дж. Ампе, Г.Л. Башинджагян, Д. Вагнер, Дж.З. Ванг, Дж.П. Вефель, А.Г. Воронин, Дж. Ву, О. Ганел, Р. Гоулд, Д. Гранжер, Р. Гунасингха, Т.Г. Гузик, А. Зигура, Дж. Изберт, Г. Кейс, Т. Кара, Х.Дж. Ким, К.Ц. Ким, С.К. Ким, Е.Н. Кузнецов, И. Квон, Т. Лемчик, М.И. Панасюк, А.Д. Панов, Б. Прайс, Г.А. Самсонов, Н.В. Сокольская, М. Сен, Э.С. Сио, Р. Сина, М. Стюарт, А. Топтыгин, С. Убре, А. Фазели, И.Дж. Хан, Дж. Чанг, В.К.Х. Шмидт, С. Эллисон. Статус эксперимента АТИК. Известия Академии Наук; серия физическая, Т.65, No.3, 2001, С.426-429.
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ATIC-2001-SEO-ICRC. E.S. Seo, The Atic Collaboration. Preliminary results from the first flight of ATIC. 27th International Cosmic Ray Conference. 2001. Hamburg, P.~1601--1604.
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ATIC-2001-WEFEL-ICRC. J.P. Wefel, ATIC Collaboration. The ATIC experiment: first balloon flight. 27th International Cosmic Ray Conference. 2001. Hamburg, P.~2111--2114.
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ATIC-2001-ZATSEPIN-ICRC. V.I. Zatsepin for the ATIC Collaboration. The first flight of ATIC: preliminary results on Li, Be, B nuclei. 27th International Cosmic Ray Conference. 2001. Hamburg, P.~1605--1607
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ATIC-2001-ADAMS-ICRC. J.H. Adams, Jr., ATIC Collaboration. Preliminary results from the first flight of ATIC: the silicon matrix. 27th International Cosmic Ray Conference. 2001. Hamburg, p.2127-2130
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ATIC-2001-ISBERT-ICRC. J. Isbert, ATIC Collaboration. The ATIC experiment: performance of the scintillator hodoscope and the BGO calorimeter. 27th International Cosmic Ray Conference. 2001. Hamburg, p.2123-2126
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ATIC-2001-AHN-ICRC. H.S. Ahn, ATIC Collaboration. ATIC Flight Data Processing. 27th International Cosmic Ray Conference. 2001. Hamburg, p.2119-2122
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ATIC-2001-CHANG-ICRC. J. Chang, W.K.H. Schmidt, ATIC Collaboration. High energy electron and gamma-ray detection with ATIC. 27th International Cosmic Ray Conference. 2001. Hamburg, p.2115-2118
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ATIC-2001-ADAMS-ICRC-Zgt8. J.H. Adams, Jr., The Atic Collaboration. Preliminary results from the first flight of ATIC: Z>8 spectra. 27th International Cosmic Ray Conference. 2001. Hamburg, p.1599-1600
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ATIC-2001-FAZELY-ICRC. A.R. Fazely, R.M. Gunasingha, ATIC Collaboration The CNO concentration in cosmic ray spectrum as measured from the ATIC experiment. 27th International Cosmic Ray Conference. 2001. Hamburg, p.1595
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ATIC-2002-SEO-NuclPhys. E.S. Seo High Energy Cosmic Ray Composition. [В т.ч. доатиковские данные по протонам и гелию, показывающие, что различие наклонов есть] Nucl. Phys. B (Proc. Suppl.), 2002, V.113, P.95-102
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ATIC-2002-ZATSEPIN-IzvRan. В.И. Зацепин, Дж.Х. Адамс-мл., Х.С. Ан, Г.Л. Башинджагян, К.Е. Батьков, Дж.З. Ванг, Дж.П. Вефель, А.Г. Воронин, Дж. Ву, О. Ганел, Д. Гранжер, Р. Гунасингха, Т.Г. Гузик, Дж. Изберт, Г. Кейс, Х.Дж. Ким, К.Ц. Ким, С.К. Ким, М. Кристл, Е.Н. Кузнецов, С.А. Накви, М.И. Панасюк, А.Д. Панов, Б. Прайс, Г.А. Самсонов, Н.В. Сокольская, Е.С. Сио, Р. Сина, М. Стюарт, А. Фазели, И.Дж. Хан, Дж. Чанг, В.К.Х. Шмидт. Зарядовое разрешение в эксперименте АТИК. Известия Академии Наук; серия физическая, Т.66, No.11, 2002, С.1631-1633.
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ATIC-2003-FAZELY-ICRC. A.R. Fazely, R.M. Ganasingha, J.H. Adams, H.S. Ahn, G. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, O. Ganel, T.G. Guzik, J. Isbert, K.C. Kim, E. Kouznetsov, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu, V. Zatsepin. Relative Abundances and Energy Spectra of C, N, and O as Measured by the Advanced Thin Ionization Calorimeter Balloon Experiment. Proceedings of the 28th International Cosmic Ray Conference. July 31-August 7, 2003. Trukuba, Japan. Under the auspices of the International Union of Pure and Applied Physics (IUPAP). Editors: T. Kajita, Y. Asaoka, A. Kawachi, Y. Matsubara and M. Sasaki, p.1869-1872.
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ATIC-2003-AHN-ICRC. H.S. Ahn, J.H. Adams, G. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, M. Cox, S.B. Ellison, A.R. Fazely, O. Ganel, R. Gould, C.P. Granger, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E. Kouznetsov, A. Malinine, M. Panasyuk, A. Panov, B. Price, W.K.H. Schmidt, E.S. Seo, R. Sina, D. Smith, N.V. Sokolskaya, M. Stewart, J.Z. Wang, J. Watts, J.P. Wefel, J. Wu, V. Zatsepin. Atic Experiment: Preliminary Results from the Flight in 2002. 28th International Cosmic Ray Conference. 2003. Tsukuba, Japan. p.1853-1856
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ATIC-2003-ZATSEPIN-ICRC. V.I. Zatsepin, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu. Experience of Application of Silicon Matrix as a Charge Detector in the ATIC Experiment. 28th International Cosmic Ray Conference. 2003. Tsukuba, Japan. p.1857
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ATIC-2003-ZATSEPIN-ICRC-ALBEDO. V.I. Zatsepin, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu Comparison of Measured and Simulated Albedo Signals in the ATIC Experiment. 28th International Cosmic Ray Conference. 2003. Tsukuba, Japan. p.1861
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ATIC-2003-ZATSEPIN-ICRC-PHe. V.I. Zatsepin, J.H. Adams, H.S. Ahn, G.L. Bashindzhangyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu. Rigidity Spectra of Protons and Helium as Measured in the First Flight of the ATIC Experiment. 28th International Cosmic Ray Conference. 2003. Tsukuba, Japan. p.1829-1832
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ATIC-2003-AHN-ICRC-PHe. H.S. Ahn, J.H. Adams, G. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E. Kouznetsov, M. Panasyuk, A. Panov, W.K.H. Schmidt, E.S. Seo, R. Sina, N.V. Sokolskaya, M. Stewart, J.Z. Wang, J.P. Wefel, J. Wu, V. Zatsepin. Atic Experiment: Elemental Spectra from the Flight in 2000. 28th International Cosmic Ray Conference. 2003. Tsukuba, Japan. p.1833-1836
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ATIC-2003-WEFEL-ICRC-ATIC2. J.P. Wefel, J.H. Adams, H.S. Ahn, G.L. Bashindzhangyan, K.E. Batkov, J. Chang, M. Christl, M. Cox, S.B. Ellison, A.R. Fazley, O. Ganel, R. Gould, C.P. Granger, D. Granger, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, A. Malinine, M.I. Panasyuk, A.D. Panov, B. Price, W.K.H. Schmidt, E.S. Seo, D. Smith, N.V. Sokolskaya, M. Stewart, J.Z. Wang, J. Watts, J. Wu, V.I. Zatsepin. The ATIC Science Flight in 2002-03: Description and Preliminary Results. 28th International Cosmic Ray Conference. 2003. Tsukuba, Japan. p.1849
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ATIC-2003-CHANG-ICRC. J. Chang, W.K.H. Schmidt, J.H. Adams, H.S. Ahn, G. Bashindzhagyan, K.E. Batkov, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E. Kouznetsov, M. Panasyuk, A. Panov, E.S. Seo, N. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu, V. Zatsepin. High Energy Cosmic Ray Electron Spectra Measured from the ATIC Balloon Experiment. 28th International Cosmic Ray Conference. 2003. Tsukuba, Japan. p.1817
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ATIC-2004-GUZIK-AdvSpRes. T.G. Guzik, J.H. Adams, H.S. Ahn, G. Bashindzhagyan, J. Chang, M. Christl, A.R. Fazely, O. Ganel, D. Granger, R.M. Gunasingha, Y.I. Han, J. Isbert, H.J. Kim, K.C. Kim, S.K. Kim, E.N. Kouznetsov, M. Panasyuk, A. Panov, B. Price, G. Samsonov, W.K.H. Schmidt, E.S. Seo, R. Sina, N. Sokolskaya, M. Stewart, A. Voronin, J.Z. Wang, J.P. Wefel, J. Wu, V. Zatsepin, The ATIC long duration balloon project. Advances in Space Reseach, V.33, 2004, P.1763-1770
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ATIC-2004-ZATSEPIN-NIM. V.I. Zatsepin, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, K.E.Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu. The silicon matrix as a charge detector in the ATIC experiment. Nuclear instruments and methods in physics research; section A, V.524, 2004, P.195-207.
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ATIC-2004-ZATSEPIN-IzvRan. В.И.Зацепин, Дж.Х. Адамс-мл, Х.С. Ан; 2; США, К.Е. Батьков, Г.Л. Башинджагян, Дж.З. Ванг, Дж.П. Вефель, Дж. Ву, О. Ганел, Р. Гунасингха, Т.Г. Гузик, Дж. Изберт, К.Ц. Ким, М. Кристл, Е.Н. Кузнецов, М.И. Панасюк, А.Д. Панов, Н.В. Сокольская, Э.С. Сио, А. Фазели, Дж. Чанг, В.К.Х. Шмидт. Энергетические спектры и зарядовый состав галактических космических лучей, измеренные в эксперименте АТИК-2. Известия РАН; серия физическая, Т.68, No.11, 2004, С. 1593-1595.
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V.I. Zatsepin, J.H. Adams, Jr., H.S. Ahn, K.E. Batkov, G.L. Bashindzhagyan, J.Z. Wang, J.P. Wefel, J. Wu, O. Ganel, R. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, M. Christl, E.N. Kuznetsov, M.I. Panasyuk, A.D. Panov, N.V. Sokolskaya, E.S. Seo, A. Fazely, J. Chang, and W.K.H. Schmidt. Energy Spectra and Charge Composition of Galactic Cosmic Rays Measured in ATIC-2 Experiment. Bulletin of the Russian Academy of Sciences. Physics, Vol. 68, No. 11, 2004, P.1780-1783
ATIC-2005-WATTS-ICRC. J. Watts, J.H. Adams, G. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E. Kouznetsov, M. Panasyuk, A. Panov, W.K.H. Schmidt, E.S. Seo, R. Sina, N.V. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu, V. Zatsepin. Simulation of the ATIC-2 Silicon Matrix for Protons and Helium GCR Primaries at 0.3, 10 and 25 TeV/nucleon. 29th International Cosmic Ray Conference. 2005, Pune, India. V. 6, p.89.
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ATIC-2005-ISBERT-ICRC-Temper. J. Isbert, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, J. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, A.D. Panov, J.P. Wefel, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J. Wu, V.I. Zatsepin. BGO Temperature Dependence and Energy measurements in the ATIC Calorimeter. 29th International Cosmic Ray Conference. 2005, Pune, India. Volume 3, p.397-400
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ATIC-2005-BATKOV-ICRC. K.E. Batkov, A.D. Panov, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, W.H.K. Schmidt, E.S. Seo, N.V. Sokolskaya, J.P. Wefel, J. Wu, V.I. Zatespin. Deconvolution of energy spectra in the ATIC experiment. 29th International Cosmic Ray Conference. 2005, Pune, India. Volume 3, p.353
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ATIC-2005-WEFEL-ICRC. J.P. Wefel, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J. Wu, V.I. Zatsepin. Energy Spectra of H and He from the ATIC-2 Experiment. 29th International Cosmic Ray Conference. 2005, Pune, India. Volume 3, p.105
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ATIC-2005-AHN-ICRC. H.S. Ahn, J.H. Adams, G. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E. Kouznetsov, M. Panasyuk, A. Panov, W.K.H. Schmidt, E.S. Seo, R. Sina, N.V. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu, V. Zatsepin. Elemental Spectra from the First ATIC Flight. 29th International Cosmic Ray Conference. 2005, Pune, India. Volume 3, p.57
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ATIC-2005-CHANG-ICRC. J. Chang, W.K.H. Schmidt, J.H. Adams, H.S. Ahn, G. Bashindzhagyan, K.E. Batkov, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E. Kouznetsov, M. Panasyuk, A. Panov, E.S. Seo, N. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu, V. Zatsepin. The Electron Spectrum above 20 GeV Measured by ATIC-2. 29th International Cosmic Ray Conference. 2005, Pune, India. Volume 3, p.1
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ATIC-2005-GANEL-NIM. Ganel O., H. Adams.Jr, H.S. Ahn, J. Ampe, G. Bashindzhagyan G. Case, J. Chang, S. Ellison, A. Fazely, R. Gould, D. Granger, R. Gunasingha, T.G. Guzik, Y.J. Han, J. Isbert, H.J. Kim, K.C. Kim, S. K.Kim, Y. Kwon, M. Panasyuk, A. Panov, B. Price, G. Samsonov W.K.H. Schmidt, M. Sen, E.S. Seo, R. Sina, N. Sokolskaya M. Stewart, A. Voronin D. Wagner, J.Z. Wang, J.P. Wefel, J. Wu, V. Zatsepin Beam test of the balloon-borne ATIC experiment. Nuclear Instruments and Methods in Physics Research, Section A. V.552, No.3, 2005, P.409-419.
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ATIC-2005-SOKOLSKAYA-YadPhys. Н.В. Сокольская, Дж.Х. Адамс-мл., Х.С. Ан, К.Е. Батьков, Г.Л. Башинджагян, Дж.З. Ванг, Дж.П. Вефель, Дж. Ву, О. Ганел, Р. Гунасингха, Т.Г. Гузик, В.И.Зацепин, Дж. Изберт, К.Ц. Ким, М. Кристл, Е.Н. Кузнецов, М.И. Панасюк, А.Д. Панов, Э.С. Сио, А. Фазели, Дж. Чанг, В.К.Х. Шмидт. Альбедо в эксперименте АТИК: результаты измерений и моделирования. ЯФ, Т.68, No7, 2005, с.1225-1232.

N. V. Sokolskaya, J. H. Adams, Jr., H. S. Ahn, K. E. Batkov, G. L. Bashindzhagyan, J. Z. Wang, J. P. Wefel, J. Wu, O. Ganel, T. G. Guzik, R. M. Gunasingha, V. I. Zatsepin, J. Isbert, K. C. Kim, M. Christl, E. N. Kouznetsov, M. I. Panasyuk, A. D. Panov, E. S. Seo, A. R. Fazely, J. Chang, and W. K. H. Schmidt. Albedo in the ATIC Experiment: Measurements and Simulations. Physics of Atomic Nuclei, Vol. 68, No. 7, 2005, P.1176-1182
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ATIC-2006-AHN-ASR. H.S. Ahn, E.S. Seo, J.H. Adams, G.L. Bashindzhagyan, K.E.Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E. Kouznetsov, M. Panasyuk, A. Panov, W.K.H. Schmidt, R. Sina, N.V. Sokolskaya, J.Z. Wang, J.P. Wefel, J. Wu, V.I. Zatsepin. The energy spectra of protons and helium measured with the ATIC experiment. Advances in Space Reseach, V.37, 2006, P.1950-1954
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ATIC-2006-PANOV-ASR. A.D. Panov, J.H. Adams Jr., H.S. Ahn, G.L. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J.P. Wefel, J. Wu, V.I. Zatsepin. The energy spectra of heavy nuclei measured by the ATIC experiment. Advances in Space Research V.37 (2006) P.1944 - 1949.
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ATIC-2006-PANOV-arXiv. A.D. Panov, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunashingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, JohnW. Watts, J.P. Wefel, J. Wu, V.I. Zatsepin. The results of ATIC-2 experiment for elemental spectra of cosmic rays. arXiv:astro-ph/0612377. 2006
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ATIC-2007-PANOV-IzvRAN. А.Д. Панов, Дж. Х. Адамс, мл., Х.С. Ан, К.Е. Батьков, Г.Л. Башинжагян, Дж. В. Ваттс, Дж. П. Вефель, Дж. Ву, О. Ганел, Т.Г. Гузик, Р.М. Гунасингха, В.И. Зацепин, И. Изберт, К.Ц. Ким, М. Кристл, Е.Н. Кузнецов, М.И. Панасюк, Э.С. Сио, Н.В. Сокольская, Дж. Чанг, В.К.Х. Шмидт, А.Р. Фазели. Элементные энергетические спектры космических лучей по данным эксперимента ATIC-2. Известия РАН. Серия Физическая, Т.71 (2007), No 4, С.512 - 515.
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Translation:
A.D. Panov, J.H.,Jr. Adams, H.S. Ahn, K.E. Batkov, G.L. Bashindzhagyan, JohnW. Watts, J.P. Wefel, J. Wu, O. Ganel, T.G. Guzik, R.M. Gunashingha, V.I. Zatsepin, J. Isbert, K.C. Kim, M. Christl, E.N. Kouznetsov, M.I. Panasyuk, E.S. Seo, N.V. Sokolskaya, J. Chang, W.K.H. Schmidt, A.R. Fazely Elemental energy spectra of cosmic rays from the data of the ATIC-2 experiment. Bulletin of the Russian Academy of Sciences: Physics, vol. 71, issue 4, pp. 494-497.
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ATIC-2008-PANOV-IET А.Д. Панов, В.И. Зацепин, Н.В. Сокольская, J.H. Adams,, Jr, H.S. Ahn, Г.Л. Башинжагян, J.W. Watts, J.P. Wefel, J. Wu, O. Ganel, T.G. Guzik, R.M. Gunasingha, J. Isbert, K.C. Kim, M. Christl, Е.Н. Кузнецов, М.И. Панасюк, E.S. Seo, J. Chang, W.K.H. Schmidt, A.R. Fazely. Измерение энерговыделения сцинтилляционным калориметром в эксперименте ATIC. Приборы и техника эксперимента. 2008, No 4, С.1 - 17.
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ATIC-2008-PANOV-IET-ENG. A. D. Panov, V. I. Zatsepin, N. V. Sokolskaya, J. H. Adams, Jr., H. S. Ahn, G. L. Bashindzhagyan, J. W. Watts, J. P. Wefel, J. Wu, O.Ganel, T. G. Guzik, R. M. Gunashingha, J. Isbert, K. C. Kim, M. Christl, E. N. Kouznetsov, M. I. Panasyuk, E. S. Seo, J. Chang, W. K. H. Schmidt, and A. R. Fazely. Measuring the Deposited Energy by the Scintillation Calorimeter in the ATIC Experiment. Instruments and Experimental Techniques, V.51 (2008), No. 5, pp. 665 - 681.
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ATIC-2008-PANOV-ICRC. A.D. Panov , N.V. Sokolskaya , J.H. Adams, Jr, H.S. Ahn , G.L. Bashindzhagyan, K.E. Batkov , J. Chang, M. Christl, A.R. Fazely, O. Ganel, R. M. Gunasingha, T. G.Guzik, J. Iabert, K. C. Kim, E.N. Kouznetsov, M.I. Panasyuk, W.K.H. Schmidt, E.S. Seo, J. Watts, J.P. Wefel, J. Wu, V.I. Zatsepin. Relative abundances of cosmic ray nuclei B-C-N-O in the energy region from 10 GeV/n to 300 GeV/n. Results from ATIC-2 (the science flight of ATIC). Proceedings of the 30th International Cosmic Ray Conference (Merida) 2008. V.2, P.3--6.
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ATIC-2008-WEFEL-ICRC. J.P. Wefel, J. H. Adams, Jr., H.S. Aahn, G. Bashindzhagyan, J. Chang, M. Christl, A. R. Fazely, O. Ganel, R. M. Gunashingha, T. G. Guzik, J. B. Isbert, K. C. Kim, E. N. Kouznetsov, M. Panasyuk, A. Panov, W.K.H. Schmidt, E.S. Seo, N. Sokolskaya, J. Watts, J. Wu, V. I. Zatsepin. Revised Energy Spectra for Primary Elements (H -- Si) above 50 GeV from the ATIC-2 Science Flight Proceedings of the 30th International Cosmic Ray Conference (Merida) 2008. V.2, P.31--34.
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ATIC-2008-AHN-ICRC. H.S. Ahn, J.H. Adams, G. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A. R. Fazely, O. Ganel1, R. M. Gunasingha, T. G. Guzik, J. Isbert, K. C. Kim, E. N. Kouznetsov, M. Panasyuk, A. Panov, W.K.H. Schmidt, E.S. Seo, R. Sina, N.V. Sokolskaya, J. Z. Wang, J.P. Wefel, J. Wu, V.I. Zatsepin. All-Particle Spectrum Measured by ATIC-1. Proceedings of the 30th International Cosmic Ray Conference (Merida) 2008. V.2, P.79--82.
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ATIC-2008-GUNASINGHA-ICRC. R.M. Gunasingha, A.R. Fazely, J.H. Adams, Jr., H.S. Ahn, G.L. Bashindzhagyan, J. Chang, M. Christl, O. Ganel, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, John W. Watts, J.P. Wefel, J. Wu, V.I. Zatsepin. Comparison of Fluka-2006 Monte Carlo Simulation and Flight data for the ATIC detector. Proceedings of the 30th International Cosmic Ray Conference (Merida) 2008. V.2, P.75--78.
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ATIC-2008-GUZIK-ICRC. T. G. Guzik, J. H. Adams, G. Bashindzhagyan, W.R. Binns, J. Chang, M.L. Cherry, M. Christl, P. Dowkontt, B. Ellison, J. B. Isbert, M. H. Israel, N. Korotkova, M. Panasyuk, A. Panov, N. Sokolskaya, M. Stewart, J. Watts, J. P. Wefel, J. Wu, V. Zatsepin. The Electron Calorimeter (ECAL) Long Duration Balloon Experiment. Proceedings of the 30th International Cosmic Ray Conference (Merida) 2008. V.2, P.405--408.
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ATIC-2008-SINEGOVSKY-ICRC. A.A. Kochanov, A.D. Panov, T.S. Sinegovskaya, S.I. Sinegovsky. Calculation of the atmospheric muon ﬂux motivated by the ATIC-2 experiment. Proceedings of the 30th International Cosmic Ray Conference (Merida) 2008. V.5, P.1511--1514.
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ATIC-2008-CHANG-ADS. J. Chang, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, K.E. Batkov, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunashingha, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, Z.W. Lin, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, JohnW. Watts, J.P. Wefel, J. Wu, V.I. Zatsepin. Resolving electrons from protons in ATIC. Advances in Space Research, Volume 42, Issue 3, p. 431-436.
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ATIC-2008-GUNASINGHA-ADS. R.M. Gunasingha, A.R. Fazely, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, O. Ganel, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J.W. Watts, J.P. Wefel, J. Wu, V.I. Zatsepin, Z.W. Lin. A detailed FLUKA-2005 Monte-Carlo simulation for the ATIC detector. Advances in Space Research, Volume 42, Issue 3, p. 417-423.
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ATIC-2008-GUZIK-ADS. T.G. Guzik, J.H. Adams, Jr, H.S. Ahn, G.L. Bashindzhagyan, K.E. Batkov, J. Chang, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunasingha, T.G. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, J. Watts, J.P. Wefel, J. Wu, V.I. Zatsepin Enhancing the ATIC charge resolution. Advances in Space Research. V.42, 2008, P.424-430.
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ATIC-2008-ISBERT-ADS. J. Isbert, J.H. Adams, H.S. Ahn, G.L. Bashindzhagyan, K.E. Batkov, M. Christl, A.R. Fazely, O. Ganel, R.M. Gunashingha, T.G. Guzik, J. Chang, K.C. Kim, E.N. Kouznetsov, Z.W. Lin, M.I. Panasyuk, A.D. Panov, W.K.H. Schmidt, E.S. Seo, N.V. Sokolskaya, JohnW. Watts, J.P. Wefel, J. Wu, V.I. Zatsepin. Temperature effects in the ATIC BGO calorimeter. Advances in Space Research, Volume 42, Issue 3, p. 437-441.
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ATIC-2008-CHANG-NATURE. J. Chang, J. H. Adams Jr, H. S. Ahn, G. L. Bashindzhagyan, M. Christl, O. Ganel, T. G. Guzik, J. Isbert, K. C. Kim, E. N. Kuznetsov, M. I. Panasyuk, A. D. Panov, W. K. H. Schmidt, E. S. Seo, N. V. Sokolskaya, J. W. Watts, J. P. Wefel, J. Wu, V. I. Zatsepin. An excess of cosmic ray electrons at energies of 300-800 GeV. Nature, V. 456, 2008, P.362-365.
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ATIC-2009-PANOV-IzvRAN. А.Д. Панов, Дж. Х. Адамс, мл., Х.С. Ан, Г.Л. Башинжагян, Дж. В. Ваттс, Дж. П. Вефель, Дж. Ву, О. Ганел, Т.Г. Гузик, В.И. Зацепин, И. Изберт, К.Ц. Ким, М. Кристл, Е.Н. Кузнецов, М.И. Панасюк, Э.С. Сио, Н.В. Сокольская, Дж. Чанг, В.К.Х. Шмидт, А.Р. Фазели. Энергетические спектры обильных ядер ПКЛ по данным эксперимента ATIC-2 - окончательные результаты. Известия РАН. Серия Физическая, Т.73 (2009), No 5, С.602 - 605.
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ATIC-2009-PANOV-IzvRAN-ENG. A.D. Panov, J.H. Adams Jr., H.S. Ahn, G.L. Bashinzhagyan, J.W. Watts, J.P. Wefel, J. Wu, O. Ganel, T.G. Guzik, V.I. Zatsepin, I. Isbertd, K.C. Kim, M. Christl, E.N. Kouznetsov, M.I. Panasyuk, E.S. Seo, N.V. Sokolskaya, J. Chang, W.K.H. Schmidt, and A. R. Fazely. Energy Spectra of Abundant Nuclei of Primary Cosmic Rays from the Data of ATIC-2 Experiment: Final Results. Bulletin of the Russian Academy of Sciences: Physics, 2009, Vol. 73, No. 5, pp. 564–567. (arXiv:1101.3246)
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ATIC-2009-ZATSEPIN-AstrLett. В.И. Зацепин, А.Д. Панов, Н.В. Сокольская, Дж.Х. Адамс мл., Х.С. Ан, Г.Л. Башинджагян, Дж.В. Ваттс, Дж.П. Вефель, Дж. Ву, Т.Г. Гузик, И. Изберт, К.Ц. Ким, М. Кристл, Е. Н. Кузнецов, М. И. Панасюк, Э. С. Сио, Дж. Чанг, А. Р. Фазели. Отношение потоков титана и железа в галактических космических лучах по данным эксперимена АТИК-2 Письма в Астрономический журнал, Т.35 (2009), No.5, С.377-381
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ATIC-2009-ZATSEPIN-AstrLett-E. V.I. Zatsepin, A.D. Panov, N.V. Sokolskaya, J.H. Adams, Jr., H.S. Ahn, G.L. Bashindzhagyan, J. Chang, M. Christl, A.R. Fazely, T.G. Guzik, J.B. Isbert, K. C. Kim, E. N. Kouznetsov, M. Panasyuk, E. S. Seo, J. Watts, J. P. Wefel, and J. Wu. Energy Dependence of Ti/Fe Ratio in the Galactic Cosmic Rays Measured by the ATIC-2 Experiment. Astronomy Letters, Vol.35 (2009), No.5, pp. 338–342.
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ATIC-2009-FAZELY-arXiv. A.R. Fazely, R.M. Gunasingha, S.V. Ter-Antonyan. Cosmic Ray Proton Background Could Explain ATIC Electron Excess. arXiv:0904.2371.
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ATIC-2009-PANOV-ICRC. A.D. Panov, V.I. Zatsepin, N.V. Sokolskaya, J.H. Adams, Jr., H.S. Ahn, G.L. Bashindzhagyan, J. Chang, M. Christl, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, E. B. Postnikov, E.S. Seo, J. Watts, J.P. Wefel, and J. Wu. Systematics in the electron spectrum measured by ATIC. Proceedings of the 31th International Cosmic Ray Conference, Lodz 2009. ID 0356. http://icrc2009.uni.lodz.pl/proc/pdf/icrc0356.pdf
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ATIC-2010-PANOV-Lomonosov. A. D. Panov, V. I. Zatsepin, N. V. Sokolskaya, G. L. Bashindzhagyan, E. N. Kouznetsov, M. I. Panasyuk, E. B. Postnikov, J. H. Adams, Jr., M. Christl, J. Watts, H. S. Ahn, K. C. Kim, E. S. Seo, J. Wu, J. Chang, T. G. Guzik, J. Isbert, J. P. Wefel Fine Structure in the Cosmic Ray Electron Spectrum Measured by ATIC. In: Proceedings of the Fourteent Lomonosov Conference on Elementary Particle Physics. Particle Physics at the Year of Astronomy. Ed.: A. I. Studenikin. World Scientific, 2010, P.256-258.
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ATIC-2011-WEFEL-COSPAR. John Wefel. The spectra of cosmic rays from the three flights of ATIC. In: 38th COSPAR Scientific Assembly. Held 18-15 July 2010, in Bremen, Germany, p.2.
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ATIC-2011-PANOV-ASTRA. A.D. Panov, V.I. Zatsepin, N.V. Sokolskaya, J.H. Adams, Jr., H.S. Ahn, G.L. Bashindzhagyan, J. Chang, M. Christl, T.G. Guzik, J. Isbert, K.C. Kim, E.N. Kouznetsov, M.I. Panasyuk, E.B. Postnikov, E.S. Seo, J. Watts, J.P. Wefel, and J. Wu. Possible structure in the cosmic ray electron spectrum measured by the ATIC-2 and ATIC-4 experiments. Astrophys. Space Sci. Trans., 7, 119-124, 2011 (www.astrophys-space-sci-trans.net/7/119/2011/).
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ATIC-2011-PANOV-IzvRAN. А.Д. Панов, Дж.Х. Адамс, мл., Х.С. Ан, Г.Л. Башинджагян, Дж.В. Ваттс, Дж.П. Вефель, Дж. Ву, Т.Г. Гузик, В.И. Зацепин, И. Изберт, К.Ц. Ким, М. Кристл, Е.Н. Кузнецов, М.И. Панасюк, Е.Б. Постников, Э.С. Сио, Н.В. Сокольская, Дж. Чанг. Тонкая структура спектра электронов космических лучей по результатам экспериментов ATIC-2 и ATIC-4. Известия РАН. Сер. Физическая, 2011, Т. 75, No3, С. 348-351.
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ATIC-2011-PANOV-IzvRAN-E. A. D. Panov, J. H. Adams, Jr., H. S. Ahn, G. L. Bashindzhagyan, J. W. Watts, J. P. Wefel, J. Wu, T. G. Guzik, V. I. Zatsepin, J. Isbert, K. C. Kim, M. Christl, E. N. Kouznetsov, M. I. Panasyuk, E. B. Postnikov, E. S. Seo, N. V. Sokolskaya, and J. Chang. Fine Structure in the Cosmic Ray Electron Spectrum Measured by the ATIC 2 and ATIC 4 Experiments. Bulletin of the Russian Academy of Sciences. Physics, 2011, Vol. 75, No. 3, pp. 319–322.
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ATIC-2011-ZATSEPIN-ICRC. V.I. Zatsepin, A.D. Panov, N.V. Sokolskaya. The experimental constraints on the models of cosmic rays origin inferred from the ATIC data and some other recent experiments. 32nd International Cosmic Ray Conference, Beijing 2011. V.6, P.14-17.
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ATIC-2013-Zatsepin-IzvMSU. V. I. Zatsepin, M. I. Panasyuk, A. D. Panov, and N. V. Sokolskaya. Direct Measurements of Galactic Cosmic Ray Energy Spectra and Elemental Composition. Moscow University Physics Bulletin, 2012, Vol. 67, No. 6, pp. 493–499.
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Русский текст:
В.И. Зацепин, М.И. Панаюк, А.Д. Панов, Н.В. Сокольская. Прямые измерения энергетических пектров и элементного состава галактических космических лучей. Вестник Московского университета, Серия 3. Физика и астрономия. 2012, No. 6, С. 25–30.
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ATIC-2013-Panov-Electrons. A D Panov. Electrons and Positrons in Cosmic Rays. Journal of Physics: Conference Series V.409 (2013) 012004.
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ATIC-2013-Panov-FeUpturn. A D Panov, N V Sokolskaya, V I Zatsepin, J H Adams, Jr., H S Ahn, G L Bashindzhagyan, J Chang, M Christl, A R Fazely, T G Guzik, J Isbert, K C Kim, E N Kouznetsov, M I Panasyuk, E S Seo, J W Watts, J P Wefel, J Wu. Upturn observed in heavy nuclei to iron ratios by the ATIC-2 experiment. Journal of Physics: Conference Series V.409 (2013) 012036.
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ATIC-2013-Panov-FeUpturn-Model. A D Panov, N V Sokolskaya, and V I Zatsepin. To the interpretation of the upturn observed by ATIC in heavy nuclei to iron ratios. Journal of Physics: Conference Series 409 (2013) 012037.
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ATIC-2013-Zatsepin-OneSource. V I Zatsepin, A D Panov, N V Sokolskaya. A united model for the cosmic ray energy spectra and anisotropy in the energy range 100–100 000 GeV. Journal of Physics: Conference Series 409 (2013) 012028.
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ATIC-2013-PANOV-IzvRan. А. Д. Панов, В. И. Зацепин, Н. В. Сокольская. РОСТ ОТНОШЕНИЯ ПОТОКОВ ТЯЖЕЛЫХ ЯДЕР К ПОТОКУ ЖЕЛЕЗА, ИЗМЕРЕННЫЙ В ЭКСПЕРИМЕНТЕ ATIC ПРИ ЭНЕРГИИ БОЛЬШЕ 100 ГэВ НА НУКЛОН. ИЗВЕСТИЯ РАН. СЕРИЯ ФИЗИЧЕСКАЯ, 2013, том 77, No 5, с. 681-684.
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Translation:
ATIC-2013-PANOV-IzvRan-Engl. A. D. Panov, V. I. Zatsepin, and N. V. Sokolskaya. Upturn in the Heavy Nuclei to Iron Ratio in the ATIC Experiment above 100 GeV/Nucleon. Bulletin of the Russian Academy of Sciences. Physics, 2013, Vol. 77, No. 5, pp. 613-615..
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ATIC-2014-NuclPhysB. A.D. Panov, N.V. Sokolskaya, V.I. Zatsepin. Upturn in the ratio of nuclei of Z=16-24 to iron observed in the ATIC experiment and the Local Bubble. Nuclear Physics B (Proc. Suppl.) 256–257 (2014) 233–240.
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ATIC-2014-Panov-IzvRAN. А.Д. Панов, Н.В. Сокольская, В.И. Зацепин. Спектры обильных ядер в источниках по данным эксперимента ATIC. Известия РАН. Сер. Физическая, 2015, Т. 79, No.3, С. 318-321.
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ATIC-2014-Panov-IzvRAN-Eng. A.D. Panov, N.V. Sokolskaya, V.I. Zatsepin. Spectra of Abundant Nuclei in Sources, According to the ATIC Experiment. Bulletin of the Russian Academy of Sciences. Physics, 2015, Vol.79, No.3, P.285-288.
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ATIC-2016-Panov-ICRC2015. A.D. Panov, N.V. Sokolskaya and V.I. Zatsepin. Energy spectra of nuclei from protons to iron in sources, according to the ATIC experiment. PoS, 2016, ICRC2015, 321.
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ATIC-2017-ApJ. A.D. Panov, N.V. Sokolskaya and V.I. Zatsepin. Energy Spectra of Abundant Cosmic-ray Nuclei in Sources, According to the ATIC Experiment. The Astrophysical Journal, 837:77 (7pp), 2017.
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Черные дыры (информация)

BHI-AMPS-AMPS2012. Ahmed Almheiri, Donald Marolf, Joseph Polchinski, James Sully. Black Holes: Complementarity or Firewalls? arXiv:1207.3123v1 [hep-th]
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BHI-AMPS-CARTER1968. Brandon Carter. Global Structure of the Kerr Family of Gravitation Fields. [замкнутые времени-подобные кривые] Phys. Rev. 1968, V.174, No 5 p.1559-1571
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BHI-AMPS-CHOWDHURY2012. Borun D. Chowdhury, Andrea Puhm. Is Alice burning or fuzzing?. arXiv:1208.2026v1 [hep-th]
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BHI-AMPS-POLCHINSKI2016. Joseph Polchinski. The Black Hole Information Problem. arXiv:1609.04036 [hep-th]
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BHI-AMPS-SUSSKIND2012. Leonard Susskind. Singularities, Firewalls, and Complementarity. arXiv:1208.3445v1 [hep-th]
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BHI-AMPS-SUSSKIND2014. Leonard Susskind. ER=EPR, GHZ, and the Consistency of Quantum Measurements. arXiv:1412.8483 [hep-th]
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BHI-ANDERSSON2016. Lars Andersson, Thomas Bäckdahl, Pieter Blue. Geometry of black hole spacetimes. arXiv:1610.03540 [gr-qc]
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BHI-ANSOLDI2018. S. Ansoldi, Z. Merali, E. I. Guendelman. From Black Holes to Baby Universes: Exploring the Possibility of Creating a Cosmos in the Laboratory? arXiv:1801.04539 [gr-qc]
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BHI-ARSENE2013. Nicusor Arsene, Lauretiu Ioan Caramete, Peter B. Denton, Octavian Micu. Quantum Black Holes Effects on the Shape of Extensive Air Showers. arXiv:1310.2205 [hep-ph]
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BHI-AZGER-AINOU2014. Mustapha Azreg-Aïnou. On `Rotating regular black hole solution': Generating the physical solution in Boyer-Lindquist coordinates. arXiv:1405.2569 [gr-qc]
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BHI-BARACK-ETAL-2018. Leor Barack, Vitor Cardoso, Samaya Nissanke, Thomas P. Sotiriou, Abbas Askar, Chris Belczynski, Gianfranco Bertone, Edi Bon, Diego Blas, Richard Brito, Tomasz Bulik, Clare Burrage, Christian T. Byrnes, Chiara Caprini, Masha Chernyakova, Piotr Chrusciel, Monica Colpi, Valeria Ferrari, Daniele Gaggero, Jonathan Gair, Juan Garcia-Bellido, S. F. Hassan, Lavinia Heisenberg, Martin Hendry, Ik Siong Heng, Carlos Herdeiro, Tanja Hinderer, Assaf Horesh, Bradley J. Kavanagh, Bence Kocsis, Michael Kramer, Alexandre Le Tiec, Chiara Mingarelli, Germano Nardini, Gijs Nelemans, Carlos Palenzuela, Paolo Pani, Albino Perego, Edward K. Porter, Elena M. Rossi, Patricia Schmidt, Alberto Sesana, Ulrich Sperhake, Antonio Stamerra, Nicola Tamanini, Thomas M. Tauris, L. Arturo Urena-Lopez, Frederic Vincent, Marta Volonteri, et al. (150 additional authors not shown). Black holes, gravitational waves and fundamental physics: a roadmap. arXiv:1806.05195 [gr-qc]
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BHI-BAMBI2017. Cosimo Bambi. Astrophysical Black Holes: A Compact Pedagogical Review. arXiv:1711.10256 [gr-qc]
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BHI-BOLOKHOV2018. S.V. Bolokhov, K.A. Bronnikov, M. V. Skvortsova. The Schwarzschild singularity: a semiclassical bounce? arXiv:1808.03717 [gr-qc]
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BHI-BORSTEN2009. L. Borsten, D. Dahanayake, M.J. Duff, H. Ebrahim, W. Rubens Black holes, qubits and octonions. Physics Reports 471 (2009) 113-219
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BHI-CARLIP2014. S. Carlip. Black Hole Thermodynamics. arXiv:1410.1486v2 [gr-qc]
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BHI-CARR2020. Bernard Carr, Florian Kuhnel. Primordial Black Holes as Dark Matter? [Хороший обзор] arXiv:2006.02838 [astro-ph.CO]
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BHI-CARTER1968. Brandon Carter. Global Structure of the Kerr Family of Gravitational Fields. Phys.Rev. V.174, 1968, P.1559-1572 [gr-qc]
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BHI-CATTANI2010. M.Cattani The Schwarzschild geometry and the black holes. [Чисто педагогическое введение, метрики Эддингтона и Крускала включены. По итальянски, к сожалению] arXiv:1010.0241v1 [gr-qc]
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BHI-CRANE2009A. Louis Crane and Shawn Westmoreland ARE BLACK HOLE STARSHIPS POSSIBLE?. arXiv:0908.1803v1 [gr-qc]
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BHI-CRANE2009B. Louis Crane Stardrives and Spinoza. http://fqxi.org/community/essay/winners/2009.1
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BHI-DOKUCHAEV2011. Vyacheslav I. Dokuchaev Is there life inside black holes? arXiv:1103.6140 [gr-qc]
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BHI-DOKUCHAEV2012. V. I. Dokuchaev. Life inside black holes. arXiv:1203.0878 [astro-ph.CO]
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BHI-DVALI2015. Gia Dvali, Mischa Panchenko Black Hole Type Quantum Computing in Critical Bose-Einstein Systems. arXiv:1507.08952 [hep-th]
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BHI-FROLOV2018. Valeri P. Frolov. Remarks on black hole entropy. arXiv:1805.04562 [gr-qc]
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BHI-HAMILTON2010A. Andrew J. S. Hamilton, Gavin Polhemus The interior structure of astronomically realistic rotating black holes 1. Motivation and summary. arXiv:1010.1269v1 [gr-qc]. См. так же технические детали: arXiv:1010.1271, arXiv:1010.1272
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BHI-HARLOW2015. Daniel Harlow. Jerusalem Lectures on Black Holes and Quantum Information. arXiv:1409.1231 [hep-th]
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BHI-HAWKING2015. S. W. Hawking The Information Paradox for Black Holes arXiv:1509.01147 [hep-th]
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BHI-HENRY2015. R.C. Henry, J.M. Overduin, K. Wilcomb. A new way to see inside black holes. arXiv:1512.02762 [gr-qc]
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BHI-ISLAS2013. J.Manuel Garcia-Islas. BTZ Black Hole Entropy in Loop Quantum Gravity and in Spin Foam Models. arXiv:1303.2773 [gr-qc]
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BHI-LAKE2010. Kayll Lake Particle Accelerators inside Spinning Black Holes. arXiv:1001.5463v1 [gr-qc]
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BHI-MATHUR2012. Samir D. Mathur. Black Holes and Beyond. arXiv:1205.0776v1 [hep-th]
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BHI-MAROLF2017. Donald Marolf. The Black Hole information problem: past, present, and future. arXiv:1703.02143 [gr-qc]
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BHI-MEINEL2013. Reinhard Meinel. A physical derivation of the Kerr-Newman black hole solution. arXiv:1310.0640 [gr-qc]
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BHI-MITSOU2010. Ermis Mitsou. Gravitational radiation from radial infall of a particle into a Schwarzschild black hole. A numerical study of the spectra, quasi-normal modes and power-law tails. arXiv:1012.2028v1 [gr-qc]
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BHI-NIKOLIC2013. H. Nikolic. Suppressing Hawking radiation by quantum Zeno effect? arXiv:1311.4363 [hep-th]
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BHI-PEREZ2017. Alejandro Perez. Black Holes in Loop Quantum Gravity. arXiv:1703.09149 [gr-qc]
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BHI-RIAZUELO2020. Alain Riazuelo. Seeing Relativity -- III. Journeying within the Kerr metric toward the negative gravity region. arXiv:2008.04384 [gr-qc]
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BHI-ROVELLI-ETAL2020. Fabio D'Ambrosio, Marios Christodoulou, Pierre Martin-Dussaud, Carlo Rovelli, Farshid Soltani. The End of a Black Hole's Evaporation -- Part I. arXiv:2009.05016 [gr-qc]
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BHI-SASAKI2018. Misao Sasaki, Teruaki Suyama, Takahiro Tanaka, Shuichiro Yokoyama. Primordial Black Holes - Perspectives in Gravitational Wave Astronomy. arXiv:1801.05235 [astro-ph.CO]
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BHI-SHATSKY2020. Shatskiy Alexander. Analysis of the Topology of the Kerr Metric. arXiv:2004.14156 [gr-qc]
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BHI-WALLACE2017AI. David Wallace. The case for black hole thermodynamics, Part I: phenomenological thermodynamics. arXiv:1710.02724 [gr-qc]
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BHI-WALLACE2017AII. David Wallace. The case for black hole thermodynamics, Part II: statistical mechanics. arXiv:1710.02725 [gr-qc]
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BHI-WALLACE2017B. David Wallace. Why Black Hole Information Loss is Paradoxical. arXiv:1710.03783 [gr-qc]
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BHI-YDRI2017. Badis Ydri. Quantum Black Holes. arXiv:1708.00748 [hep-th]
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Эффект Казимира

BHI-JAFFE2006. R. L. Jaffe Casimir effect and the quantum vacuum. Physical Review D, vol. 72, Issue 2, id. 021301
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Константы: вариации и прочее

CONST-FISCHACH2015. E. Fischbach, V. E. Barnes, J. M. Heim, D. E. Krause, J. M. Nistor Weak Equivalence Principle, Lorentz Non-invariance, and Nuclear Decays. arXiv:1505.04221 [gr-qc]
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CONST-KANEKAR2010. Nissim Kanekar, Jayaram N. Chengalur, Tapasi Ghosh Probing fundamental constant evolution with redshifted conjugate-satellite OH lines. [Независимо подтвержаются с 2.6 сигмами ранее полученные другим методом результаты (с примерно 5-ю сигмами) об уменьшении постоянной тонкой структуры]. arXiv:1004.5383v1 [astro-ph.CO]
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CONST-RAHMANI2013. H. Rahmani, N. Maheshwari, R. Srianand Constraining the Variation in Fine-Structure Constant Using SDSS DR8 QSO Spectra. arXiv:1312.5324 [astro-ph.CO
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CONST-SCHLAMMINGER2015. S. Schlamminger, J.H. Gundlach, R.D. Newman Recent measurements of the gravitational constant as a function of time. arXiv:1505.01774 [gr-qc]
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CONST-WEBB2010. J. K. Webb, J. A. King, M. T. Murphy, V. V. Flambaum, R. F. Carswell, M. B. Bainbridge Evidence for spatial variation of the fine structure constant. arXiv:1008.3907v1 [astro-ph.CO]
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Вычислительные методы и пакеты (аналитика в том числе)

COMP-BIRKANDAN2017. Tolga Birkandan, Ceren Güzelgün, Elif Şirin, Mustafa Can Uslu. Symbolic and Numerical Analysis in General Relativity with Open Source Computer Algebra Systems? arXiv:1703.09738 [gr-qc].
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COMP-CADABRA2007-2018. Kasper Peeters. Introducing Cadabra: a symbolic computer algebra system for field theory problems. arXiv:hep-th/0701238
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COMP-CADABRA-2019. Leo Brewin. Using Cadabra for tensor computations in General Relativity. arXiv:1912.08839 [gr-qc]
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COMP-EISENSTEIN2018. Robert A. Eisenstein. Numerical Relativity and the Discovery of Gravitational Waves arXiv:1804.07415 [gr-qc].
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COMP-LEWIS2018. Adam G.M. Lewis, Harald P. Pfeiffer. Automatic generation of CUDA code performing tensor manipulations using C++ expression templates. arXiv:1804.10120 [cs.MS].
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COMP-PALENZUELA2020. Carlos Palenzuela. Introduction to Numerical Relativity. arXiv:2008.12931 [gr-qc].
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Космические лучи (преимущественно адроны)

CR-ALOISIO2014. Roberto Aloisio, Piera L. Ghia, Sergio Petrera, Sergio Petrera. ARE COSMIC RAYS STILL A VALUABLE PROBE OF LORENTZ INVARIANCE VIOLATIONS IN THE AUGER ERA? arXiv:1408.5213v1 [astro-ph.HE].
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CR-ARGO-YBJ-LHAASO-2015. B. Bartoli, P. Bernardini, X.J. Bi, P. Branchini, A. Budano, P. Camarri, Z. Cao, R. Cardarelli, S. Catalanotti, S.Z. Chen, T.L. Chen, P. Creti, S.W. Cui, B.Z. Dai, A. D'Amone, Danzengluobu, I. De Mitri, B. D'Ettorre Piazzoli, T. Di Girolamo, G. Di Sciascio, C.F. Feng, Zhaoyang Feng, Zhenyong Feng, Q.B. Gou, Y.Q. Guo, H.H. He, Haibing Hu, Hongbo Hu, M. Iacovacci, R. Iuppa, H.Y. Jia, Labaciren, H.J. Li, G. Liguori, C. Liu, J. Liu, M.Y. Liu, H. Lu, L.L. Ma, X.H. Ma, G. Mancarella, S.M. Mari, G. Marsella, D. Martello, S. Mastroianni, P. Montini, C.C. Ning, M. Panareo, L. Perrone, P. Pistilli, F. Ruggieri, P. Salvini, R. Santonico, P.R. Shen, X.D. Sheng, F. Shi, A. Surdo, Y.H. Tan, P. Vallania, S. Vernetto, C. Vigorito, H. Wang, C.Y. Wu, H.R. Wu, L. Xue, Q.Y. Yang, X.C. Yang, Z.G. Yao, et al. (29 additional authors not shown). The Knee of the Cosmic Hydrogen and Helium Spectrum below 1 PeV Measured by ARGO-YBJ and a Cherenkov Telescope of LHAASO? arXiv:1502.03164 [astro-ph.HE].
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CR-CHERRY2006. M.L. Cherry. Approaching the knee balloon-borne observations of cosmic ray composition Journal of Physics: Conference Series, Volume 47, Issue 1, pp. 31-40 (2006) (arXiv:astro-ph/0512329v1).
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CR-CREAM2004-AdSpR. E.S. Seo, H.S. Ahn, J.J. Beatty, S. Coutu, M.J. Choi, M.A. DuVernois, O. Ganel, T.G. Kang, K.C. Kim, M.H. Lee, L. Lutz, P.S. Marrocchesi, S. Minnick, K.W. Min, S. Nutter, H. Park, I.H. Park, E. Schindhelm, R. Sina, S. Swordy, J. Wu, J. Yang. Cosmic-ray energetics and mass (CREAM) balloon project. Advances in Space Research 33 (2004) 1777–1785.
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CR-CREAM2007-NIM. H.S. Ahn, P. Allison, M.G. Bagliesi, J.J. Beatty, G. Bigongiari, P. Boyle, J.T. Childers, N.B. Conklin, S. Coutu, M.A. DuVernois, O. Ganel, J.H. Han, J.A. Jeon, K.C. Kim, J.K. Lee, M.H. Lee, L. Lutz, P. Maestro, A. Malinin, P.S. Marrocchesi, S.A. Minnick, S.I. Mognet, S.W. Nam, S.L. Nutter, I.H. Park, N.H. Park, E.S. Seo,j, R. Sina, S.P. Swordy, S.P. Wakely, J. Wu, J. Yang, Y.S. Yoon,j, R. Zei, S.Y. Zinn. The Cosmic Ray Energetics And Mass (CREAM) instrument. Nuclear Instruments and Methods in Physics Research A 579 (2007) 1034–1053.
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CR-CREAM2008-NuclPhysSuppl. E. S. Seo, H. S. Ahn, P. Allison, M.G. Bagliesi, L. Barbier, A. Barrau, R. Bazer-Bachi, J. J. Beatty, G. Bigongiari, P. Boyle, T. T. Brandt, M. Buénerd, J. T. Childers, N. B. Conklin, S. Coutu, L. Derome, M. A. DuVernois, O. Ganel, J. H. Han, J. A. Jeon, K. C. Kim, M. H. Lee, L. Lutz, A. Malinin, M. Mangin-Brinet, P. S. Marrocchesi, P. Maestro, A. Menchaca-Rocha, S. Minnick, S. I. Mognet, S. W. Nam, S. Nutter, I. H. Park, N. H. Park, A. Putze, Y. Sallaz-Damaz, R. Sina, S. Swordy, S. Wakely, P. Walpole, J. Wu, J. Yang, Y. S. Yoon, R. Zei, and S. Y. Zinn. Approaching the Knee with Direct Measurements. Nuclear Physics B (Proc. Suppl.) 175–176 (2008) 155–161.
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CR-CREAM2008. H.S. Ahn, P.S. Allison, M.G. Bagliesi, J.J. Beatty, G. Bigongiari, P.J. Boyle, T.J. Brandt, J.T. Childers, N.B. Conklin, S. Coutu, M.A. Duvernois, O. Ganel, J.H. Han, H. J. Hyun, J.A. Jeon, K.C. Kim, J.K. Lee, M.H. Lee, L. Lutz, P. Maestro, A. Malinin, P.S. Marrocchesi, S.A. Minnick, S.I. Mognet, S. Nam, S.L. Nutter, I.H. Park, N.H. Park, E.S. Seo, R. Sina, S.P. Swordy, S.P. Wakely, J. Wu, J. Yang, Y.S. Yoon, R. Zei, S.Y. Zinn. Measurements of cosmic-ray secondary nuclei at high energies with the ﬁrst ﬂight of the CREAM balloon-borne experiment. Astropart. Phys. 30 (2008) 133-141, arXiv:0808.1718v1 [astro-ph].
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CR-CREAM2008-AdSpR-41. P.S. Marrocchesi, H.S. Ahn, P. Allison, M.G. Bagliesi, L. Barbier, J.J. Beatty, G. Bigongiari, T.J. Brandt, J.T. Childers, N.B. Conklin, S. Coutu, M.A. DuVernois, O. Ganel, J.H. Han, J.A. Jeon, K.C. Kim, M.H. Lee, L. Lutz, P. Maestro, A. Malinine, S. Minnick, S.I. Mognet, S.W. Nam, S. Nutter, I.H. Park, N.H. Park, E.S. Seo, R. Sina, P. Walpole, J. Wu, J. Yang, Y.S. Yoon, R. Zei, S.Y. Zinn. Preliminary results from the second ﬂight of CREAM. Advances in Space Research 41 (2008) 2002–2009.
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CR-CREAM2008-AdSpR-42. S.P. Wakely, H.S. Ahn, P. Allison, M.G. Bagliesi, J.J. Beatty, G. Bigongiari, P. Boyle, T.J. Brandt, J.T. Childers, N.B. Conklin g, S. Coutu, M.A. DuVernois, O. Ganel, J.H. Han, J.A. Jeon, K.C. Kim, M.H. Lee, L. Lutz, P. Maestro, A. Malinine, P.S. Marrocchesi, S. Minnick, S.I. Mognet, S.W. Nam, S. Nutter, I.H. Park, J.H. Park, N.H. Park, E.S. Seo, R. Sina, S.P. Swordy, J. Wu, J. Yang, Y.S. Yoon, R. Zei, S.Y. Zinn. First measurements of cosmic-ray nuclei at high energy with CREAM. Advances in Space Research 42 (2008) 403–408.
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CR-CREAM2008-ICRC-63. H.S. Ahn, P.S. Allison, M.G. Bagliesi, et al. Elemental Spectra from the CREAM-I Flight. 30th International Cosmic Ray Conference. 2008. Volume 2, p.63-66.
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CR-CREAM2008-ICRC-55. Y.S. Yoon, H.S. Ahn, P.S. Allison, et al. H and He spectra from the 2004/05 CREAM flight. 30th International Cosmic Ray Conference. 2008. Volume 2, p.55-58.
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CR-CREAM2008-ICRC-39. N.H. Park, H.S. Ahn, P.S. Allison, et al. Relative abundances of heavy ions measured by the CREAM-II Silicon Charge Detector. 30th International Cosmic Ray Conference. 2008. Volume 2, p.39-42.
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CR-CREAM2008-ICRC-23. R. Zei, H.S. Ahn, P.S. Allison, et al. Preliminary measurements of carbon and oxygen energy spectra from the second flight of CREAM. 30th International Cosmic Ray Conference. 2008. Volume 2, p.23-26.
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CR-CREAM2009A. P. Maestro, H. S. Ahn, P. Allison, M.G. Bagliesi, L. Barbier, J.J. Beatty, G. Bigongiari, T.J. Brandt, J.T. Childers, N.B. Conklin, S. Coutu, M.A. DuVernois, O. Ganel, J.H. Han, J. A. Jeon, K.C. Kim, M.H. Lee, A. Malinine, P.S. Marrocchesi, S. Minnick, S.I. Mognet, S. W. Nam, S. Nutter, I.H. Park, N.H. Park, E. S. Seo, R. Sina, P. Walpole, J. Wu, J. Yang, Y.S. Yoon, R. Zei and S.Y. Zinn. . Elemental energy spectra of cosmic rays measured by CREAM-II. PROCEEDINGS OF THE 31st ICRC, LODZ 2009. ID0641
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CR-CREAM2009B. Y.S. Yoon, H.S. Ahn, T. Anderson, L. Barbier, A. Barrau, R. Bazer-Bach, J.J. Beatty, P. Bhoyar, T.J. Brandt, M. Buenerd, N.B. Conklin, S. Coutu, L. Derome, M.A. DuVernois, O. Ganel, M. Geske, J.H. Han, J. A. Jeon, K. C. Kim, M. H. Lee, J. T. Link, A. Malinin, M. Mangin-Brinet, A. Menchaca-Rocha, J.W. Mitchell, S.I. Mogne, G. Na, S. Nam, S. Nutter, I.H. Park, N. H. Park, A. Putze, J.N. Perie, Y. Sallaz-Damaz, E. S. Seo, P. Walpole, J. Wu, J. Yang, J. H. Yoo. Preliminary Proton and Helium Spectra from the CREAM-III Flight. PROCEEDINGS OF THE 31st ICRC, LODZ 2009. ID0668
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CR-CREAM2009C. J.H. Han, H.S. Ahn, T. Anderson, Louis Barbier, A. Barrau, R. Bazer-Bachi, J.J. Beatty, P. Bhoyar, T.J. Brandt, M. Buenerd, N.B. Conklin, S. Coutu, L. Derome, M.A. DuVernois, O. Ganel, M. Geske, J.A. Jeon, K.C. Kim, M.H. Lee, J.T. Link, A. Malinin, M. Mangin-Brinet, A. Menchaca-Rocha, J.W. Mitchell, S.I. Mognet, G.W. Na, S.W. Nam, S. Nutter, I.H. Park, N.H. Park, A. Putze, J.N. Perie, Y. Sallaz-Damaz, Eun-Suk Seo, P. Walpole, J. Wu, J. Yang, J.H. Yoo, Y.S. Yoon. Performance in flight of the CREAM-III and CREAM-IV calorimeters. PROCEEDINGS OF THE 31st ICRC, LODZ 2009. ID1394
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CR-CREAM2009-ApJ. H.S. Ahn, P. Allison, M.G. Bagliesi, L. Barbier, J.J. Beatty, G. Bigongiari, T.J. Brandt, J.T. Childers, N.B. Conklin, S. Coutu, M.A. DuVernois, O. Ganel, J.H. Han, J.A. Jeon, K.C. Kim, M.H. Lee, P. Maestro, A. Malinine, P.S. Marrocchesi, S. Minnick, S.I. Mognet, S.W. Nam, S. Nutter, I.H. Park, N.H. Park, E.S. Seo, R. Sina, P. Walpole, J. Wu, J. Yang, Y.S. Yoon, R. Zei, S.Y. Zinn Energy Spectra of Cosmic-ray Nuclei at High Energies. The Astrophysical Journal, Volume 707, Issue 1, pp. 593-603 (2009)
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CR-CREAM2009-NIM. H.S. Ahn, P.S. Allison, M.G. Bagliesi, J.J. Beatty, G. Bigongiari, P. Boyle, J.T. Childers, N.B. Conklin, S. Coutu, M.A. Duvernois, O. Ganel, J.H. Han, J.A. Jeon, K.C. Kim, J.K. Lee, M.H. Lee, L. Lutz, P. Maestro, A. Malinin, P.S. Marrocchesi, S.A. Minnick, S.I. Mognet, S.W. Nam, S.L. Nutter, I.H. Park, N.H. Park, E.S. Seo, R. Sina, S.P. Swordy, S.P. Wakely, J. Wu, J. Yang, Y.S. Yoon, R. Zei, S.Y. Zinn. The Cosmic Ray Energetics and Mass (CREAM) timing charge detector. Nuclear Instruments and Methods in Physics Research Section A, 2009, Volume 602, Issue 2, p. 525-536
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CR-CREAM2009-NuclPhysSuppl. P. Maestro, H. S. Ahn, P. Allison, M. G. Bagliesi, L. Barbier, J. J. Beatty, G. Bigongiari, T. J. Brandt, J. T. Childers, N. B. Conklin, S. Coutu, M. A. DuVernois, O. Ganel, J. H. Han, J. A. Jeon, K. C. Kim, M. H. Lee, A. Malinine, P. S. Marrocchesi, S. Minnick, S. I. Mognet, S. W. Nam, S. Nutter, I. H. Park, N. H. Park, E. S. Seo, R. Sina, P. Walpole, J. Wu, J. Yang, Y. S. Yoon, R. Zei, S. Y. Zinn. Measurements of cosmic-ray energy spectra with the 2nd CREAM flight. Nucl.Phys.Proc.Suppl.196:239-242,2009
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CR-CREAM2010A. H. S. Ahn, P. Allison, M. G. Bagliesi, J. J. Beatty, G. Bigongiari, J. T. Childers, N. B. Conklin, S. Coutu, M. A. DuVernois, O. Ganel, J. H. Han, J. A. Jeon, K. C. Kim, M. H. Lee, L. Lutz, P. Maestro, A. Malinin, P. S. Marrocchesi, S. Minnick, S. I. Mognet, J. Nam, S. Nam, S. L. Nutter, I. H. Park, N. H. Park, E. S. Seo, R. Sina, J. Wu, J. Yang, Y. S. Yoon, R. Zei, S. Y. Zinn Discrepant hardening observed in cosmic-ray elemental spectra. Astrophysical Journal Letters 714 (2010) L89-L93, arXiv:1004.1123v1 [astro-ph.HE]
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CR-CREAM2010B. P. Maestro, H. S. Ahn, P. Allison, M. G. Bagliesi, L. Barbier, J. J. Beatty, G. Bigongiari, T. J. Brandt, J. T. Childers, N. B. Conklin, S. Coutu, M. A. DuVernois, O. Ganel, J. H. Han, J. A. Jeon, K. C. Kim, M. H. Lee, A. Malinine, P. S. Marrocchesi, S. Minnick, S. I. Mognet, S. W. Nam, S. Nutter, I. H. Park, N. H. Park, E. S. Seo, R. Sina, P. Walpole, J. Wu, J. Yang, Y. S. Yoon, R. Zei, S. Y. Zinn. Elemental energy spectra of cosmic rays measured by CREAM-II. arXiv:1003.5759 [astro-ph.HE]
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CR-CREAM2011-icrc1106. J.H. Han, H.S. Ahn, Y. Amare, T. Anderson, D. Angelaszek, A. Barrau, R. Bazer-bachi, J. J. Beatty, T. J. Brandt, M. Buenerd, N. B. Conklin, B. Coste, S. Coutu, E. Danilevich, L. Derome, J. Eaton, O. Ganel, M. Geske, M. Gupta, A. Haque, J. A. Jeon, K. C. Kim, M. H. Kim, J. T. Link, M. H. Lee, S. E. Lee, L. Lutz, A. Malinin, A. Menchaca-Rocha, J. W. Mitchell, S. I. Mognet, G. Na, K.H. Nam, J. Nam, S. Nam, S. Nutter, O. Ofoha, A. Page, I. H. Park, S. S. Ryu, E. S. Seo, B. P. Smith, J. Tylka, A. Vartanyan, J. Wu, Y. S. Yoon. Performance of the CREAM-V and CREAM-VI calorimeters in flight. 32nd ICRC, 2011, V.6, p. 395-398
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CR-CREAM2011-ICRC-PHeIII. Y. S. Yoon1,2 , H. S. Ahn1 , T. Anderson3 , et al. (CREAM collaboration) Proton and helium spectra from the CREAM-III ﬂight. 32nd ICRC, 2011, V.6, p. 95-98
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CR-CREAM2011-ICRC-SeoHiglight. E. S. Seo on behalf of CREAM collaboration CREAM: Results, Implications and Outlook. 32nd ICRC, 2011, V.12, p. 179-187
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CR-CREAM2011-ApJ-PHe-I. Y.S. Yoon, H.S. Ahn, P.S. Allison, M.G. Bagliesi, J.J. Beatty, G. Bigongiari, P.J. Boyle, J.T. Childers, N.B. Conklin, S. Coutu, M.A. DuVernois, O. Ganel, J.H. Han, J.A. Jeon, K.C. Kim, M.H. Lee, L. Lutz, P. Maestro, A. Malinine, P.S. Marrocchesi, S.A. Minnick, S.I. Mognet, S. Nam, S. Nutter, I.H. Park, N.H. Park, E.S. Seo, R. Sina, S. Swordy, S.P. Wakely, J. Wu, J. Yang, R. Zei, S.Y. Zinn. Cosmic-ray Proton and Helium Spectra from the First CREAM Flight. The Astrophysical Journal, Volume 728, Issue 2, article id. 122, 8 pp. (2011)
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CR-CREAM2012-COSPAR-CNO. Benoit Coste. B, C, N and O fluxes reconstruction with the CREAM-III experiment. 39th COSPAR Scientific Assembly. Held 14-22 July 2012, in Mysore, India. Abstract F3.3-1-12, p.364
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CR-CREAM2012-AstroPart. E.S. Seo. Direct measurements of cosmic rays using balloon borne experiments. Astroparticle Physics 39–40 (2012) 76-87
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CR-CREAM2017-ApJ-pHe. Y.S. Yoon, T. Anderson, A. Barrau, N.B. Conklin, S. Coutu, L. Derome, J.H. Han, J.A. Jeon, K.C. Kim, M.H. Kim, H.Y. Lee, J. Lee, M.H. Lee, S.E. Lee, J.T. Link, A. Menchaca-Rocha, J.W. Mitchell, S.I. Mognet, S. Nutter, I.H. Park, N. Picot-Clemente, A. Putze, E.S. Seo, J. Smith, J. Wu. Proton and Helium Spectra from the CREAM-III Flight. The Astrophysical Journal, 839:5 (8pp), 2017 (arXiv:1704.02512 [astro-ph.HE])
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CR-DAR2008. Arnon Dar, A. De Rújula. A theory of cosmic rays. Physics Reports 466 (2008) 179-241.
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CR-GAISSER2000. Thomas K. Gaisser Origin of Cosmic Radiation. AIP Conf.Proc. 558 (2001) 27-42 (arXiv:astro-ph/0011524v1)
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CR-GLEESON1968. L.J. Gleeson, W.I.Axford. Solar Modulation of Galactic Cosmic Rays. ApJ, V. 154, 1968, P.1011-1026.
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CR-KALMYKOVV-60annSINP. Н.Н. Калмыков. Астрофизика космических лучей. www.sinp.msu.ru/sinp60/Klmkv_fin.pdf.
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CR-LINSLEY1983. J. Linsley. Spectra, anisotropies and composition of cosmic rays above 1000 GeV. International Cosmic Ray Conference, 18th, Bangalore, India. August 22-September 3, 1983, Invited and Rapporteur Papers. Volume 12 (A85-22801 09-93). Bombay, Tata Institute of Fundamental Research, 1983, p. 135-191.
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CR-NINA2001. V. Bidoli, A. Canestro, M. Casolino, M.P. De Pascale, G. Furano, A. Iannucci, A. Morselli, P. Picozza, E. Reali, R. Sparvoli, A. Bakaldin, A. Galper, S. Koldashov, M. Korotkov, A. Leonov, V. Mikhailov, A. Murashov, S. Voronov, M. Boezio, V. Bonvicini, R. Cirami, A. Vacchi, N. Zampa, M. Ambriola, R. Bellotti, F. Cafagna, F. Ciacio, M. Circella, C. De Marzo, O. Adriani, P. Papini, S. Piccardi, P. Spillantini, S. Straulino, S. Bartalucci, G. Mazzenga, M. Ricci and G. Castellini In-Orbit Performance of the Space Telescope NINA and Galactic Cosmic-Ray Flux Measurements. ApJ, Suppl. Ser., 2001, V. 132, No. 2, P.365-375 (arXiv:astro-ph/0012286v1).
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CR-NUCLEON2018-arXiv-knee. E. Atkin, V. Bulatov, V. Dorokhov, N. Gorbunov, S. Filippov, V. Grebenyuk, D. Karmanov, I. Kovalev, I. Kudryashov, A. Kurganov, M. Merkin, A. Panov, D. Podorozhny, D. Polkov, S. Porokhovoy, V. Shumikhin, A. Tkachenko, L. Tkachev, A. Turundaevskiy, O. Vasiliev, A. Voronin. A new universal cosmic-ray knee near the magnetic rigidity 10 TV with the NUCLEON space observatory. arXiv:1805.07119 [astro-ph.HE].
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CR-OLVE2009. Д.М. Подорожный, Э.В. Аткин, Л.С. Бурылов, А.Г. Воронин и др. Проект ОЛВЭ исследования первичного космического излучения высоких энергий. Известия РАН. Серия Физическая, 2009, Т.73, No 5, С.632-635.
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CR-ORMES1965-ICRC-349. J.F. Ormes, W.R. Webber. Measurements of the primary proton and helium nuclei spectra and their modulations using a ballon-borne Cerenkov-scintillation counter. Proceedings of the 9th International Cosmic Ray Conference, Vol. 1, p.349-354.
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CR-SEMIKOZ2015. M. Kachelrieß, A. Neronov, and D. V. Semikoz. Signatures of a Two Million Year Old Supernova in the Spectra of Cosmic Ray Protons, Antiprotons, and Positrons ? PRL 115, 181103 (2015).
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CR-ZATSEPIN2006. V.I. Zatsepin and N.V. Sokolskaya. Three component model of cosmic ray spectra from 10 GeV to 100 PeV. Astronomy and Astrophysics, Volume 458, Issue 1, October IV 2006, pp.1-5 (arXiv:astro-ph/0601475v2).
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Космические лучи - ускорение

CRA-AXFORD1981-ICRC. W.I. Axford. Acceleration of Cosmic Rays by Shock Waves. [Это большой обзор] 17th International Cosmic Ray Conference, held in Paris, France. Volume 12., p.155-203.
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CRA-AXFORD1981-IAUS. W.I. Axford. The acceleration of galactic cosmic rays. [Это обзор покороче] In: Origin of cosmic rays; Proceedings of the Symposium, Bologna, Italy, June 11-14, 1980. (A82-34026 16-93) Dordrecht, D. Reidel Publishing Co., 1981, p. 339-358..
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CRA-BELL1978-I. A.R. Bell. The acceleration of cosmic rays in shock fronts. I. Royal Astronomical Society, Monthly Notices, vol. 182, Jan. 1978, p. 147-156.
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CRA-BELL1978-II. A.R. Bell. The acceleration of cosmic rays in shock fronts. II. Royal Astronomical Society, Monthly Notices, vol. 182, Feb. 1978, p. 443-455.
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CRA-BELL-LUCEK-2001. A.R. Bell, S.G. Lucek. Cosmic ray acceleration to very high energy through the non-linear amplification by cosmic rays of the seed magnetic field. Monthly Notices of the Royal Astronomical Society, Volume 321, Issue 3, pp. 433-438.
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CRA-BEREZHKO2008-ASR. E.G. Berezhko. Cosmic ray acceleration by supernova shocks. Advances in Space Research, Volume 41, Issue 3, p. 429-441 (arXiv:0809.0738v1 [astro-ph]).
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CRA-BIERMANN1995-SSRev. Peter L. Biermann. The Origin of Cosmic Rays. Space Science Reviews, Volume 74, Issue 3-4, pp. 385-396
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CRA-BLANDFORD1980-ApJ. R.D. Blandford, J.P. Ostriker. Supernova shock acceleration of cosmic rays in the Galaxy. Astrophysical Journal, Part 1, vol. 237, May 1, 1980, p. 793-808.
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CRA-BLANDFORD1987-PhysRep. Roger Blandford, David Eichler. Particle acceleration at astrophysical shocks: A theory of cosmic ray origin. Physics Reports, Volume 154, Issue 1, p. 1-75.
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CRA-CAPRIOLI2010-AP-A. D. Caprioli, E. Amato, P. Blasi. The contribution of supernova remnants to the galactic cosmic ray spectrum. Astroparticle Physics, 2010, Volume 33, Issue 3, p. 160-168 (arXiv:0912.2964)
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CRA-ELLISON1994. D.C. Ellison, S.P. Reynolds, K. Borkowski, R. Chevalier, D.P. Cox, J.R. Dickel, R. Pisarski, J. Raymond, S.R. Spangler, H.J. Volk, J.P. Wefel. Supernova remnants and the physics of strong shock waves. Astronomical Society of the Pacific, Publications (ISSN 0004-6280), 1994, vol. 106, no. 701, p. 780-797.
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CRA-KRYMSKY1977. Гермоген Филиппович Крымский. РЕГУЛЯРНЫЙ МЕХАНИЗМ УСКОРЕНИЯ ЗАРЯЖЕННЫХ ЧАСТИЦ НА ФРОНТЕ УДАРНОЙ ВОЛНЫ. Доклады Академии наук СССР 1977. Том 234, No 6. С. 1306-1308.
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CRA-ORMES1981-ApJ. J.F. Ormes, R.J. Protheroe. Implications of HEAO 3 data for the acceleration and propagation of galactic cosmic rays. [Распространение здесь тоже обсуждается] Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 272, Sept. 15, 1983, p. 756-764.
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CRA-OUYED2011-Ti. Rachid Ouyed, Denis Leahy, Amir Ouyed, Prashanth Jaikumar. A Spallation Model for the Titanium-rich Supernova Remnant Cassiopeia A. arXiv:1109.2124v1 [astro-ph.HE].
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CRA-PTUSKIN2005. V.S. Ptuskin, V.N Zirakashvili. On the spectrum of high-energy cosmic rays produced by supernova remnants in the presence of strong cosmic-ray streaming instability and wave dissipation. A&A V.429(2005), P.755-765.
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CRA-PTUSKIN2006-AdvSpRes-1898. V.S. Ptuskin, V.N. Zirakashvili. Nonlinear processes in cosmic-ray precursor of strong supernova shock: Maximum energy and average energy spectrum of accelerated particles. Advances in Space Research 37 (2006) 1898-1901.
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CRA-PTUSKIN2006-AdvSpRes-1909. V.S. Ptuskin, F.C. Jones, E.S. Seo, R. Sina. Effect of random nature of cosmic ray sources - Supernova remnants - on cosmic ray intensity ﬂuctuations, anisotropy, and electron energy spectrum. Advances in Space Research 37 (2006) 1909-1912.
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CRA-PTUSKIN2010-ApJ. V. Ptuskin, V. Zirakashvili, E.-S. Seo. Spectrum of Galactic Cosmic Rays Accelerated in Supernova Remnants. Astrophysical Journal, Volume 718, Issue 1, pp. 31-36 (2010). (arXiv:1006.0034)
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CRA-PTUSKIN2010-UFN. В.С. Птускин. Происхождение космических лучей. УФН, 2010, Т. 180, No9, С. 1000-1004
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CRA-PTUSKIN2012. V. S. Ptuskin, V. N. Zirakashvili, E. S. Seo. Spectra of Cosmic Ray Protons and Helium Produced in Supernova Remnants. arXiv:1212.0381 [astro-ph.HE]
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CRA-WEBBER1997SpScRev. W.R. Webber. New experimental data and what it tells us about the source and acceleration of cosmic rays. Space Science Reviews, 1997, V.~81, P.~107--142.
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CRA-ZATSEPIN1999-ICRC. V.I. Zatsepin, N.V. Sokolskaya. Two Components in the Galactic Cosmic Rays. 26th International Cosmic Ray Conference. August 17-25, 1999. Salt Lake City, Utah, USA. Under the auspices of the International Union of Pure and Applied Physics (IUPAP). Volume 4. Edited by D. Kieda, M. Salamon, and B. Dingus, p.136--139.
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CRA-ZIRAKASHVILI-2011-ICRC. V.N. Zirakashvili, V.S.Ptuskin. Role of reverse shocks for the production of galactic cosmic rays in SNRs. icrc32, Beijing, 2011, V.6, P.163-166.
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CRA-ZIRAKASHVILI-2011-PhysRedD. V. N. Zirakashvili and F. A. Aharonian. Radioactivity and electron acceleration in supernova remnants. Phys. Rev. D 84, 083010 (2011).
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Космические лучи - анизотропия

CRANIS-ARGO-YBJ-2009-ICRC-0399. S. Vernetto, Z. Guglielmotto, J.L. Zhang, on behalf of the ARGO-YBJ Collaboration Sky monitoring with ARGO-YBJ [Это гамма]. ICRC31, 2009, Lodz, ID 0399.
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CRANIS-ARGO-YBJ-2009-ICRC-0814. Cui Shuwang, Li Taoli, Zhang Jianli, ON BEHALF OF ARGO-YBJ COLLABORATION. Study on large-scale CR anisotropy with ARGO-YBJ experiment. ICRC31, 2009, Lodz, ID 0814.
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CRANIS-EASTOP-2009-ApJL. M. Aglietta, V.V. Alekseenko, B. Alessandro, P. Antonioli, F. Arneodo, L. Bergamasco, M. Bertaina, R. Bonino, A. Castellina, A. Chiavassa, B. D'EttorrePiazzoli, G. DiSciascio, W. Fulgione, P. Galeotti, P.L. Ghia, M. Iacovacci, G. Mannocchi, C. Morello, G. Navarra, O. Saavedra, A. Stamerra, G.C. Trinchero, S. Valchierotti, P. Vallania, S. Vernetto, C. Vigorito Evolution of the Cosmic-Ray Anisotropy Above 10^14 eV. The Astrophysical Journal Letters, Volume 692, Issue 2, pp. L130-L133 (2009).
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CRANIS-EASTOP-2010-JPhys. Piera L. Ghia, for the EAS-TOP Collaboration. Evolution of the cosmic ray anisotropy above 10^14 eV. Journal of Physics: Conference Series 203 (2010) 012126 (Topics in Astroparticle and Underground Physics (TAUP 2009)).
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CRANIS-GIACINI2011. Gwenael Giacinti and Gunter Sigl. Local Magnetic Turbulence and TeV-PeV Cosmic Ray Anisotropies. arXiv:1111.2536v1 [astro-ph.HE].
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CRANIS-ICECUBE-2010-ApJ. IceCube Collaboration: R. Abbasi, Y. Abdou, T. Abu-Zayyad, et. al. Measurement of the Anisotropy of Cosmic-ray Arrival Directions with IceCube. The Astrophysical Journal Letters, Volume 718, Issue 2, pp. L194-L198 (2010)
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CRANIS-ICECUBE-2011-ApJ. IceCube Collaboration: R. Abbasi, Y. Abdou, T. Abu-Zayyad, et. al. Observation of Anisotropy in the Arrival Directions of Galactic Cosmic Rays at Multiple Angular Scales with IceCube. ApJ (2011) V.740:16 (17 pp). (arXiv:1105.2326v4 [astro-ph.HE])
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CRANIS-EW2006. A.D. Erlykin, A.W. Wolfendale. The anisotropy of galactic cosmic rays as a product of stochastic supernova explosions. Astroparticle Physics, Volume 25, Issue 3, p. 183-194 (arXiv:astro-ph/0601290)
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CRANIS-ICRC32-ARGO-YBJ-2011-0041. J. L. Zhang, Yi. Zhang, S. W. Cui on behalf of the ARGO-YBJ Collaboration. Observation of TeV cosmic ray anisotropy by the ARGO-YBJ experiment. ICRC32, 2011, Beijing, ID 0041.
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CRANIS-ICRC32-ARGO-YBJ-2011-0507. G. Di Sciascio, R. Iuppa. Few-degree anisotropies in the cosmic-ray ﬂux observed by the ARGO-YBJ experiment [хороший обзор моделей]. ICRC32, 2011, Beijing, ID 0507.
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CRANIS-ICRC32-AUGER-2011-0493. Haris Lyberis, FOR THE PIERRE AUGER COLLABORATION. Analysis of the modulation in the ﬁrst harmonic of the right ascension distribution of cosmic rays detected at the Pierre Auger Observatory. ICRC32, 2011, Beijing, ID 0493.
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CRANIS-ICRC32-AUGER-2011-0868. Edivaldo M. Santos, FOR THE PIERRE AUGER COLLABORATION. Anisotropies and Chemical Composition of Ultra-High Energy Cosmic Rays Using Arrival Directions Measured by the Pierre Auger Observatory. ICRC32, 2011, Beijing, ID 0868.
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CRANIS-ICRC32-BAKSAN-2011-0281. V. A. KOZYARIVSKY, A. S. LIDVANSKY, T. I. TULUPOVA. Reconstruction of the Direction of True Anisotropy of Cosmic Rays at Energy of about 100 TeV. ICRC32, 2011, Beijing, ID 0281.
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CRANIS-ICRC32-GRAPES-2011-0997. A. Oshima, H. Antia, S. Dugad. Cosmic ray anisotropy observed by GRAPES-3 air shower array. ICRC32, 2011, Beijing, ID 0997.
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CRANIS-ICRC32-ICECUBE-2011-0305. The IceCube Collaboration Energy Dependence of the Large Scale Galactic Cosmic Rays Anisotropy Measured With IceCube. ICRC32, 2011, Beijing, ID 0305.
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CRANIS-ICRC32-ICECUBE-2011-0306. The IceCube Collaboration Observation of Anisotropy in the Arrival Direction Distribution of Cosmic Rays at TeV Energies with IceCube. ICRC32, 2011, Beijing, ID 0306.
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CRANIS-ICRC32-ICECUBE-2011-0308. The IceCube Collaboration Measurement of the Solar Anisotropy with IceCube. ICRC32, 2011, Beijing, ID 0308.
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CRANIS-ICRC32-OHARA-2011-0406. Soji Ohara, Takeharu Konishi, Atsushi Mukati, et. al. The Anisotropy of Cosmic Ray Pursued with Chaos Analysis. ICRC32, 2011, Beijing, ID 0406.
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CRANIS-ICRC32-Sagdeev-2011-1256. R.Z. Sardeev, M. A. Malkov, P.H. Diamond, L.O’C. Drury. Probing Nearby CR Accelerators with Milagro/IceCube Hot Spots. icrc32, 2011, Beijing, ID 1256
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CRANIS-ICRC32-Sveshnikova-2011-1057. Sveshnikova L. G., Strelnikova O. N., Ptuskin V. S. On probable contribution of nearby sources to anisotropy and spectrum of cosmic rays at TeV-PeV-energies. icrc32, 2011, Beijing, ID 1057
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CRANIS-ICRC32-Sun-2011-0822. P. Sun and J.R. Jokipii. Charged-Particle Transport in anisotropic magnetic Turbulence. icrc32, 2011, Beijing, ID 0822
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CRANIS-ICRC32-TA-2011-1311. I. Tkachev, M. Fukushima, D. Ivanov, et. al. Anisotropy and point sources searches in the Telescope Array data. icrc32, 2011, Beijing, ID 1311
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CRANIS-ICRC32-TA-2011-1317. M. Fukushima, E. Kido, T. Nonaka. Search for a large-scale anisotropy of ultra-high energy cosmic rays with the Telescope Array. icrc32, 2011, Beijing, ID 1317
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CRANIS-ICRC32-TIBET-2011-0361. M.Amenomori, X.J. Bi, D.C. Hen, et. al (Tibet AS-gamma collaboration) Modeling of the galactic cosmic-ray anisotropy at TeV energies. ICRC32, 2011, Beijing, ID 0361.
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CRANIS-ICRC32-TIBET-2011-0379. M.Amenomori, X.J. Bi, D.C. Hen, et. al (Tibet AS-gamma collaboration) Time Dependence of Loss-Cone Amplitude measured with the Tibet Air-Shower Array. ICRC32, 2011, Beijing, ID 0379.
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CRANIS-ICRC32-TIBET-2011-1167. M.Amenomori, X.J. Bi, D.C. Hen, et. al (Tibet AS-gamma collaboration) On temporal variations of the multi-TeV cosmic ray anisotropy using the Tibet III Air Shower Array. ICRC32, 2011, Beijing, ID 1167.
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CRANIS-ICRC32-UCHAIKIN-2011-1249. V.V. Uchaikin, R.T. Sibatov, V.V. Saenko. Fractional anomalous diffusion models of cosmic ray transport in the Galaxy. ICRC32, 2011, Beijing, ID 1249.
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CRANIS-ICRC32-WANG-2011-0079. Wei Wang, Yunying Jiang, Jinlin Han. Correlation Studies Between Ultra-high Energy Cosmic Rays and Fermi Gamma-ray Sources. ICRC32, 2011, Beijing, ID 0079.
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CRANIS-HALL1999. D.L. Hall, K. Munakata, S. Yasue, S. Mori, C. Kato, M. Koyama, S. Akahane, Z. Fujii, K. Fujimoto, J.E. Humble, A.G. Fenton, K.B. Fenton, M.L. Duldig. Gaussian analysis of two hemisphere observations of galactic cosmic ray sidereal anisotropies. Journal of Geophysical Research, Volume 104, Issue A4, p. 6737-6750
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CRANIS-KASCADE2004-ApJ. T. Antoni, W.D. Apel, A.F. Badea, K. Bekk, A. Bercuci, H. Blümer, H. Bozdog, I.M. Brancus, C. Büttner, K. Daumiller, P. Doll, R. Engel, J. Engler, F. Fessler, H.J. Gils, R. Glasstetter, A. Haungs, D. Heck, J.R. Hörandel, K.-H. Kampert, H.O. Klages, G. Maier, H.J. Mathes, H.J. Mayer, J. Milke, M. Müller, R. Obenland, J. Oehlschläger, S. Ostapchenko, M. Petcu, H. Rebel, A. Risse, M. Risse, M. Roth, G. Schatz, H. Schieler, J. Scholz, T. Thouw, H. Ulrich, J. vanBuren, A. Vardanyan, A. Weindl, J. Wochele, J. Zabierowski. Large-Scale Cosmic-Ray Anisotropy KASCADE. The Astrophysical Journal, Volume 604, Issue 2, pp. 687-692
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CRANIS-KASCADEGRANDE-2008. S. Over, M. Stümpert, A. Haungs Search for anisotropy and point sources of cosmic rays with the KASCADE-Grande experiment. Proceedings of the 30th International Cosmic Ray Conference; Rogelio Caballero, Juan Carlos D'Olivo, Gustavo Medina-Tanco, Lukas Nellen, Federico A. Sánchez, José F. Valdés-Galicia (eds.); Universidad Nacional Autónoma de México, Mexico City, Mexico, 2008; Vol. 4 (HE part 1), pages 223-226.
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CRANIS-Milagro2007-ICRC. B.E. Kolterman. A Harmonic Analysis of the Large Scale Cosmic Ray Anisotropy. Proceedings of the 30th International Cosmic Ray Conference. July 3 - 11, 2007, Mérida, Yucatán, Mexico. Edited by Rogelio Caballero, Juan Carlos D'Olivo, Gustavo Medina-Tanco, Lukas Nellen, Federico A. Sánchez, José F. Valdés-Galicia. Universidad Nacional Autónoma de México, Mexico City, Mexico, 2008. Volume 1, p.617-620
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CRANIS-Milagro2008-PRL. A.A. Abdo, B. Allen, T. Aune, D. Berley, E. Blaufuss, S. Casanova, C. Chen, B.L. Dingus, R.W. Ellsworth, L. Fleysher, R. Fleysher, M.M. Gonzalez, J.A. Goodman, C.M. Hoffman, P.H. Hüntemeyer, B.E. Kolterman, C.P. Lansdell, J.T. Linnemann, J.E. McEnery, A.I. Mincer, P. Nemethy, D. Noyes, J. Pretz, J.M. Ryan, P.M.Saz Parkinson, A. Shoup, G. Sinnis, A.J. Smith, G.W. Sullivan, V. Vasileiou, G.P. Walker, D.A. Williams, G.B. Yodh. Discovery of Localized Regions of Excess 10-TeV Cosmic Rays. Physical Review Letters, vol. 101, Issue 22, id. 221101
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CRANIS-Milagro2009-ApJ. A.A. Abdo, B.T. Allen, T. Aune, D. Berley, S. Casanova, C. Chen, B.L. Dingus, R.W. Ellsworth, L. Fleysher, R. Fleysher, M.M. Gonzalez, J.A. Goodman, C.M. Hoffman, B. Hopper, P.H. Hüntemeyer, B.E. Kolterman, C.P. Lansdell, J.T. Linnemann, J.E. McEnery, A.I. Mincer, P. Nemethy, D. Noyes, J. Pretz, J.M. Ryan, P.M.Saz Parkinson, A. Shoup, G. Sinnis, A.J. Smith, G.W. Sullivan, V. Vasileiou, G.P. Walker, D.A. Williams, G.B. Yodh. The Large-Scale Cosmic-Ray Anisotropy as Observed with Milagro. The Astrophysical Journal, Volume 698, Issue 2, pp. 2121-2130 (2009)
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CRANIS-Milagro2009-ApJL. Eduardo Battaner, Joaquín Castellano, Manuel Masip. The Large-Scale Cosmic-Ray Anisotropy as Observed with Milagro. The Astrophysical Journal Letters, Volume 703, Issue 1, pp. L90-L93 (2009)
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CRANIS-NAGASHIMA1989. K. Nagashima, K. Fujimoto, S. Sakakibara, Z. Fujii, H. Ueno, I. Morishita and K. Murakami Galactic cosmic-ray anisotropy and its modulation in the heliomagnetosphere, inferred from air shower observation at Mt. Norikura. Il Nuovo Cimento C, Volume 12, Number 6, 695-749
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CRANIS-NAGASHIMA1995A. K. Nagashima, K. Fujimoto, R. M. Jacklyn. Cosmic-Ray Sidereal Daily Variation, Showing of the Coexistence of the Galactic and Heliomagnetotail-In Anisotropies. 24th International Cosmic Ray Conference, Vol. 4, held August 28-September 8, 1995 in Rome, Italy. Edited by N. Iucci and E. Lamanna. International Union of Pure and Applied Physics, 1995., p.652
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CRANIS-NAGASHIMA1995B. K. Nagashima, K. Fujimoto, R. M. Jacklyn. Cosmic-ray Excess Flux from Heliomagnetotail. 24th International Cosmic Ray Conference, Vol. 4, held August 28-September 8, 1995 in Rome, Italy. Edited by N. Iucci and E. Lamanna. International Union of Pure and Applied Physics, 1995., p.656
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CRANIS-OHARA2003-JPhysG. S. Ohara, T. Konishi, K. Tsuji, M. Chikawa, Y. Kato, T. Wada, N. Ochi, I. Yamamoto, N. Takahashi, W. Unno, T. Kitamura (Large Area Air Shower (LAAS) Group). Chaos in different far-off cosmic rays: a fractal wave model. J. Phys. G: Nucl. Part. Phys. 29 (2003) 2065–2077
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CRANIS-SuperKamiokandeI-2007-ICRC. Yuichi Oyama. Observation of the Anisotropy of 10 TeV Primary Cosmic Ray Nuclei Flux with the Super-Kamiokande-I Detector. Proceedings of the 30th International Cosmic Ray Conference. July 3 - 11, 2007, Mérida, Yucatán, Mexico. Edited by Rogelio Caballero, Juan Carlos D'Olivo, Gustavo Medina-Tanco, Lukas Nellen, Federico A. Sánchez, José F. Valdés-Galicia. Universidad Nacional Autónoma de México, Mexico City, Mexico, 2008. Volume 1, p.605-608
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CRANIS-SuperKamiokandeI-2007-PhysRev. Gene Guillian, for the Super-Kamiokande Collaboration. Observation of the Anisotropy of 10 TeV Primary Cosmic Ray Nuclei Flux with the Super-Kamiokande-I Detector. Phys.Rev.D75:062003,2007 (arXiv:astro-ph/0508468v4)
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CRANIS-Tibet-2005-ApJ. Tibet AS Gamma Collaboration: M. Amenomori, S. Ayabe, S.W. Cui, Danzengluobu, L.K. Ding, X.H. Ding, C.F. Feng, Z.Y. Feng, X.Y. Gao, Q.X. Geng, H.W. Guo, H.H. He, M. He, K. Hibino, N. Hotta, Haibing Hu, H.B. Hu, J. Huang, Q. Huang, H.Y. Jia, F. Kajino, K. Kasahara, Y. Katayose, C. Kato, K. Kawata, Labaciren, G.M. Le, J.Y. Li, H. Lu, S.L. Lu, X.R. Meng, K. Mizutani, J. Mu, K. Munakata, A. Nagai, H. Nanjo, M. Nishizawa, M. Ohnishi, I. Ohta, H. Onuma, T. Ouchi, S. Ozawa, J.R. Ren, T. Saito, M. Sakata, T. Sasaki, M. Shibata, A. Shiomi, T. Shirai, H. Sugimoto, M. Takita, Y.H. Tan, N. Tateyama, S. Torii, H. Tsuchiya, S. Udo, T. Utsugi, B.S. Wang, H. Wang, X. Wang, Y.G. Wang, H.R. Wu, L. Xue, Y. Yamamoto, C.T. Yan, X.C. Yang, S. Yasue, Z.H. Ye, G.C. Yu, A.F. Yuan, T. Yuda, H.M. Zhang, J.L. Zhang, N.J. Zhang, X.Y. Zhang, Y. Zhang, Yi Zhang, Zhaxisangzhu, X.X. Zhou. Large-Scale Sidereal Anisotropy of Galactic Cosmic-Ray Intensity Observed by the Tibet Air Shower Array. Astrophys.J. 626 (2005) L29-L32 (arXiv:astro-ph/0505114v1)
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CRANIS-Tibet-2006-Science. M. Amenomori, S. Ayabe, X.J. Bi, D. Chen, S.W. Cui, Danzengluobu, L.K. Ding, X.H. Ding, C.F. Feng, Zhaoyang Feng, Z.Y. Feng, X.Y. Gao, Q.X. Geng, H.W. Guo, H.H. He, M. He, K. Hibino, N. Hotta, Haibing Hu, H.B. Hu, J. Huang, Q. Huang, H.Y. Jia, F. Kajino, K. Kasahara, Y. Katayose, C. Kato, K. Kawata, Labaciren, G.M. Le, A.F. Li, J.Y. Li, Y.-Q. Lou, H. Lu, S.L. Lu, X.R. Meng, K. Mizutani, J. Mu, K. Munakata, A. Nagai, H. Nanjo, M. Nishizawa, M. Ohnishi, I. Ohta, H. Onuma, T. Ouchi, S. Ozawa, J.R. Ren, T. Saito, T.Y. Saito, M. Sakata, T.K. Sako, T. Sasaki, M. Shibata, A. Shiomi, T. Shirai, H. Sugimoto, M. Takita, Y.H. Tan, N. Tateyama, S. Torii, H. Tsuchiya, S. Udo, B. Wang, H. Wang, X. Wang, Y.G. Wang, H.R. Wu, L. Xue, Y. Yamamoto, C.T. Yan, X.C. Yang, S. Yasue, Z.H. Ye, G.C. Yu, A.F. Yuan, T. Yuda, H.M. Zhang, J.L. Zhang, N.J. Zhang, X.Y. Zhang, Y. Zhang, Yi Zhang, Zhaxisangzhu, X.X. Zhou. Anisotropy and Corotation of Galactic Cosmic Rays. Science, Volume 314, Issue 5798, pp. 439-443 (2006)
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CRANIS-Tibet-2009-ICRC. Kazuoki Munakata, M. Amenomori, X.J. Bi, D. Chen, S.W. Cui, . Danzengluobu, L.K. Ding, X.H. Ding, C. Fan, C.F. Feng, Zhaoyang Feng, Z.Y. Feng, X.Y. Gao, Q.X. Geng, Q.B. Gou, H.W. Guo, H.H. He, M. He, K. Hibino, N. Hotta, Haibing Hu, H.B. Hu, J. Huang, Q. Huang, H.Y. Jia, L. Jiang, F. Kajino, K. Kasahara, Y. Katayose, C. Kato, K. Kawata, . Labaciren, G.M. Le, A.F. Li, H.C. Li, J.Y. Li, C. Liu, Y.-Q. Lou, H. Lu, X.R. Meng, K. Mizutani, J. Mu, A. Nagai, H. Nanjo, M. Nishizawa, M. Ohnishi, I. Ohta, Shunsuke Ozawa, T. Saito, T.Y. Saito, M. Sakata, T.K. Sako, Makio Shibata, A. Shiomi, T. Shirai, H. Sugimoto, M. Takita, Y.H. Tan, N. Tateyama, Shoji Torii, H. Tsuchiya, Shigeharu Udo, B. Wang, H. Wang, Y.G. Wang, Y.G. Wang, H.R. Wu, L. Xue, Y. Yamamoto, C.T. Yan, X.C. Yang, S. Yasue, Z.H. Ye, G.C. Yu, A.F. Yuan, T. Yuda, H.M. Zhang, J.L. Zhang, N.J. Zhang, X.Y. Zhang, X.Y. Zhang, Yi Zhang, Ying Zhang, . Zhaxisangzhu, X.X. Zhou, Jozsef Kota, and Tibet AS-Gamma Collaboration. "Large-scale sidereal anisotropy of multi-TeV galactic cosmic rays and the heliosphere". http://icrc2009.uni.lodz.pl/proc/pdf/icrc0296.pdf
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Космические лучи - калориметрические прямые измерения

CRCAL-CALET2017-ICRC-A. P.S. Marrocchesi and on behalf of the CALET Collaboration. Observation of Protons and Light Nuclei with CALET: Analysis and Preliminary Results. PoS(ICRC2017)156
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CRCAL-CREAM-2011-ApJ. Y.S. Yoon, H.S. Ahn, P.S. Allison, M.G. Bagliesi, J.J. Beatty, G. Bigongiari, P.J. Boyle, J.T. Childers, N.B. Conklin, S. Coutu, M.A. DuVernois, O. Ganel, J.H. Han, J.A. Jeon, K.C. Kim, M.H. Lee, L. Lutz, P. Maestro, A. Malinine, P.S. Marrocchesi, S.A. Minnick, S.I. Mognet, S. Nam, S. Nutter, I.H. Park, N.H. Park, E.S. Seo, R. Sina, S. Swordy, S. P. Wakely, J. Wu, J. Yang, R. Zei, S.Y. Zinn. COSMIC-RAY PROTON AND HELIUM SPECTRA FROM THE FIRST CREAM FLIGHT. ApJ, 2011, V.728:122 (8 pages)
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CRCAL-DAMPE2017-ICRC-He. V. Gallo, P. Bernardini, P.X. Ma, Q. Yuan and on behalf of the DAMPE Collaboration. Studies on Helium flux with DAMPE. PoS(ICRC2017)169
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CRCAL-DAMPE2017-ICRC-p. C. Yue, J. Zang, T. Dong, A. Surdo, S. Vitillo and on behalf of the DAMPE Collaboration. Studies of Cosmic-Ray Proton Flux with the DAMPE Experiment. PoS(ICRC2017)1076
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CRCAL-ELLSWORTH-1977. R.W. Ellsworth, A. Ito, J. MacFall, R.E. Streitmatter, S.C. Tonwar, P.R. Vishwanath, F. Siohan, V.K. Balasubrahmanyan, G.B. Yodh. On the high energy proton spectrum measurements. Astrophysics and Space Science, vol. 52, no. 2, Dec. 1977, p. 415-427.
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CRCAL-FERMI-2014-ApJ. M. Ackermann, M. Ajello, A. Albert, et al. Inferred Cosmic-Ray Spectrum from Fermi Large Area Telescope γ-Ray Observations of Earth's Limb. Physical Review Letters, Volume 112, Issue 15, id.151103
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CR-GRIGOROV1958-Calorimeter. Н.Л. Григоров, В.С. Мурзин, И.Д. Рапопорт. Метод измерения энергии частиц в области выше $10^{11}$~eV. ЖЭТФ, 1958, Т.~34, No2, С~506--507.
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CR-GRIGOROV1989-JETPLett. N.L. Grigorov. Charge distribution of cosmic rays above 1 TeV. Journal of Experimental and Theoretical Physics Letters, 1989, Vol. 49, p.278-281
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CR-GRIGOROV1989-JETPLett-Rus. Н.Л. Григоров. Распределение космических лучей по зарядам при энергии выше 1 ТэВ. Письма в ЖЭТФ, 1989, Т.~49, С.~246--248.
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CR-GRIGOROV1989-Preprint. Н.Л. Григоров. Изучение космических лучей с энергией выше 1 ТэВ на ИСЗ прибором "Сокол". Препринт НИИЯФ МГУ 89-9/86, 1989
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CR-GRIGOROV1990-21ICRC. N.L. Grigorov. Proton spectrum measurement in the energy range above 1 TeV. Proc. of 21st ICRC (1990), V.3, P.73-76.
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CR-GRIGOROV1990-SattelitesAll. Н.Л. Григоров. Изучение космических лучей высокой и сверхвысокой энерии на ИСЗ. ЯФ, 1990, Т. 51, вып. 1, С. 157-172
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CR-GRIGOROV1995-p-and-Heavy. Н.Л. Григоров. Различие спектров протонов и более тяжелых ядер в области высоких энергий -- миф или реальность? Космические исследования. 1995, Т. 33, No4, С. 339-349.
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CR-GRIGOROV2005-ATIC-Letter. Н.Л. Григоров. Письмо к участникам АТИК-коллаборации. В кн.: Н.Л. Григоров. Избранные труды по физике космических лучей. Сборник статей. С.~121--124
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CR-GRIGOROV-Trudy. Список научных трудов Наума Леонидовича Григорова. В кн.: Н.Л. Григоров. Избранные труды по физике космических лучей. Сборник статей. С.~125--147.
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CR-PAMELA-2004. Marco Circella, on behalf of the PAMELA Collaboration. The space mission PAMELA. Nuclear Instruments and Methods in Physics Research A 518 (2004) 153-157.
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CR-PAMELA-2007-AstroPartPh. P. Picozza, A.M. Galper, G. Castellini, O. Adriani, F. Altamura, M. Ambriola, G.C. Barbarino, A. Basili, G.A. Bazilevskaja, R. Bencardino, M. Boezio, E.A. Bogomolov, L. Bonechi, M. Bongi, L. Bongiorno, V. Bonvicini, F. Cafagna, D. Campana, P. Carlson, M. Casolino, C. deMarzo, M.P. dePascale, G. deRosa, D. Fedele, P. Hofverberg, S.V. Koldashov, S.Yu. Krutkov, A.N. Kvashnin, J. Lund, J. Lundquist, O. Maksumov, V. Malvezzi, L. Marcelli, W. Menn, V.V. Mikhailov, M. Minori, S. Misin, E. Mocchiutti, A. Morselli, N.N. Nikonov, S. Orsi, G. Osteria, P. Papini, M. Pearce, M. Ricci, S.B. Ricciarini, M.F. Runtso, S. Russo, M. Simon, R. Sparvoli, P. Spillantini, Yu.I. Stozhkov, E. Taddei, A. Vacchi, E. Vannuccini, S.A. Voronov, Y.T. Yurkin, G. Zampa, N. Zampa, V.G. Zverev. PAMELA A payload for antimatter matter exploration and light-nuclei astrophysics. Astroparticle Physics, 2007, V.27 P.296–315.
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CR-PAMELA-2007-Ready. O. Adriania, M. Albi, F. Altamura, et al. The Pamela experiment ready for ﬂight. Nuclear Instruments and Methods in Physics Research A 572 (2007) 471–473.
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CR-PAMELA-2007-NIM2. Silvio Orsi, for the PAMELA Collaboration. PAMELA: A payload for antimatter matter exploration and light nuclei astrophysics. Nuclear Instruments and Methods in Physics Research A 580 (2007) 880–883.
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CR-PAMELA-2009A. O. Adriani, G. C. Barbarino, G. A. Bazilevskajac, et al. The PAMELA space mission. Nuclear Physics B (Proc. Suppl.) 188 (2009) 296-298.
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CR-PAMELA-2011-NuclPhysSuppl. Marco Casolino, N. De Simone, V. Formato. PAMELA recent results on galactic proton and helium. Nuclear Physics B (Proc. Suppl.) 212–213 (2011) 362-367.
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CR-PAMELA-2011-p-He-Mag. O. Adriani, G.C. Barbarino, G.A. Bazilevskaya, R. Bellotti, M. Boezio, E.A. Bogomolov, L. Bonechi, M. Bongi, V. Bonvicini, S. Borisov, S. Bottai, A. Bruno, F. Cafagna, D. Campana, R. Carbone, P. Carlson, M. Casolino, G. Castellini, L. Consiglio, M.P. DePascale, C. DeSantis, N. DeSimone, V. DiFelice, A.M. Galper, W. Gillard, L. Grishantseva, G. Jerse, A.V. Karelin, S.V. Koldashov, S.Y. Krutkov, A.N. Kvashnin, A. Leonov, V. Malakhov, V. Malvezzi, L. Marcelli, A.G. Mayorov, W. Menn, V.V. Mikhailov, E. Mocchiutti, A. Monaco, N. Mori, N. Nikonov, G. Osteria, F. Palma, P. Papini, M. Pearce, P. Picozza, C. Pizzolotto, M. Ricci, S.B. Ricciarini, L. Rossetto, R. Sarkar, M. Simon, R. Sparvoli, P. Spillantini, Y.I. Stozhkov, A. Vacchi, E. Vannuccini, G. Vasilyev, S.A. Voronov, Y.T. Yurkin, J. Wu, G. Zampa, N. Zampa, V.G. Zverev. PAMELA Measurements of Cosmic-Ray Proton and Helium Spectra. Science, 2011, Volume 332, Issue 6025, pp. 69-72.
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CR-PAMELA-2011-p-He-Cal. A. V. Karelin, S. V. Borisov, A. M. Galper, S. A. Voronov for PAMELA collaboration. The Proton and Helium cosmic ray spectra from 50 GeV to 15 TeV. Astrophys. Space Sci. Trans., 7, 235-238, 2011 (www.astrophys-space-sci-trans.net/7/235/2011/).
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CR-PAMELA-2013-ADS. W. Menn, O. Adriani, G.C. Barbarino, et. al (PAMELA collaboration). The PAMELA space experiment. Advances in Space Research 51 (2013) 209--218.
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CR-PAMELA-2013-AdS-PHe-Cal. O. Adriani, G.C. Barbarino, G.A. Bazilevskaya, et. al (PAMELA collaboration). Measurements of cosmic-ray proton and helium spectra with the PAMELA calorimeter. Advances in Space Research 51 (2013) 219--226.
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CR-PAMELA-2013-PicozzaHL. P Picozza, L Marcelli, O Adriani, et. al (PAMELA collaboration). Cosmic Ray Study with the PAMELA Experiment. J. Phys.: Conf. Ser., 2013, V.409, id 012003.
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CR-PAMELA-2014-ApJ-BtoC. O. Adriani, G. C. Barbarino, G. A. Bazilevskaya, R. Bellotti, M. Boezio, E. A. Bogomolov, M. Bongi, V. Bonvicini, S. Bottai, A. Bruno, F. Cafagna, D. Campana, R. Carbone, P. Carlson, M. Casolino, G. Castellini, I. A. Danilchenko, C. De Donato, C. De Santis, N. De Simone, V. Di Felice, V. Formato, A. M. Galper, A. V. Karelin, S. V. Koldashov, S. Koldobskiy, S. Y. Krutkov, A. N. Kvashnin, A. Leonov, V. Malakhov, L. Marcelli, M. Martucci, A. G. Mayorov, W. Menn, M. Mergé, V. V. Mikhailov, E. Mocchiutti, A. Monaco, N. Mori, R. Munini, G. Osteria, F. Palma, B. Panico, P. Papini, M. Pearce, P. Picozza, C. Pizzolotto, M. Ricci, S. B. Ricciarini, L. Rossetto, R. Sarkar, V. Scotti, M. Simon, R. Sparvoli, P. Spillantini, Y. I. Stozhkov, A. Vacchi, E. Vannuccini, G. I. Vasilyev, S. A. Voronov, Y. T. Yurkin, G. Zampa, N. Zampa, V. G. Zverev. Measurement of Boron and Carbon Fluxes in Cosmic Rays with the PAMELA Experiment. 2014 ApJ 791 93 [arXiv:1407.1657].
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CR-PINKAU1969. Pinkau, K.; Pollvogt, U.; Schmidt, W. K. H.; Huggett, R. W. Measurement of the Primary Cosmic Ray Proton and Alpha-Particle Spectra above 10 GeV/Nucl. Mitteilungen der Astronomischen Gesellschaft, 1969, Vol. 27, p.143.
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CRCAL-PROTON1966-1-Spectra. Н.Л. Григоров, О.М. Коврижных, В.Е. Нестеров, И.Д. Рапопорт, И.А. Савенко, Г.А. Скуридин, А.Ф. Титенков. Измерение энергетического спектра первичных космических лучей в области энергий $10^{10}-10^{14}$~эВ с помощью ИСЗ Протон-1. Известия АН СССР, Сер. Физ. Т. 30, No11, С.1760-1762.
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CRCAL-PROTON1966-1-ChemComp. Н.Н. Володичев, Н.Л. Григоров, В.Е. Нестеров, И.Д. Рапопорт, И.А. Савенко, Б.М. Яковлев Изучение химического состава первичных космических лучей в области умеренных энергий на ИСЗ Протон-1. Известия АН СССР, Сер. Физ. Т. 30, No11, С.1763-1764.
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CRCAL-PROTON1966-1-1-Electrons. Н.Л. Григоров, Ю.С. Клинцов, В.Е. Нестеров, И.Д. Рапопорт, И.А. Савенко, Б.М. Яковлев Изучение электронов высокой энергии на ИСЗ Протон-1 и Протон-2. Известия АН СССР, Сер. Физ. Т. 30, No11, С.1773-1775.
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CRCAL-PROTON1967-NuclComponent. Н.Н. Володичев, Н.Л. Григоров, О.В. Кисляков, Ю.В. Минеев, В.Е. Нестеров, О.Ю. Нечаев, И.Д. Рапопорт, И.А. Савенко, А.В. Смирнов, Б.М. Яковлев Изучение ядерной компоненты первичных космических лучей на ИСЗ "Протон-2". Космические исследования, 1967, Т. 5. Вып. 1, С. 115--118.
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CRCAL-PROTON1967-ChargeSpectrometer. Н.Н. Володичев, Н.Л. Григоров, О.В. Кисляков, Ю.В. Минеев, В.Е. Нестеров, О.Ю. Нечаев, И.Д. Рапопорт, И.А. Савенко, А.В. Смирнов, Б.М. Яковлев Светосильный спектрометр зарядов первичных ядер космических лучей. Космические исследования, 1967, Т. 5. Вып. 1, С. 119--123.
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CRCAL-PROTON1967-CONSTRUCTION. Н.Л. Григоров, Г.П. Кахидзе, В.Е. Нестеров, И.Д. Рапопорт, И.А. Савенко, А.В. Смирнов, А.Ф. Титенков, П.П. Шишков. Спектрометр частиц первичного космического излучения высокой энергии для ИСЗ типа "Протон". Космические исследования, 1967, Т. 5. Вып. 3, С. 383--394.
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CR-PROTON1967-1-2-Spectra. Н.Л. Григоров, В.Е. Нестеров, И.Д. Рапопорт, И.А. Савенко, Г.А. Скуридин, А.Ф. Титенков. Изучение энергетического спекра и состава первичных космических лучей в области высоких и сверхвысоки энергий на ИСЗ "Протон-1" и "Протон-2". Космические исследования, 1967, Т. 5, вып.3, С. 395--419.
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CRCAL-PROTON1967-CrossSections. Н.Л. Григоров, В.Е. Нестеров, И.Д. Рапопорт, И.А. Савенко, Г.А. Скуридин Измерение на ИСЗ "Протон-1" и "Протон-2" эффективного сечения неупругого взаимодействия с ядрами углерода протонов с энергиями $10^{10}--10^{12}$~эВ. Космические исследования, 1967, Т. 5. Вып. 3, С. 420--430.
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CRCAL-PROTON1967-SuperHeavy. Н.Н. Володичев, Н.Л. Григоров, И.А. Савенко Изучение сверхтяжелых ядер в космических лучах. Космические исследования, 1967, Т. 5. Вып. 3, С. 431--435.
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CRCAL-PROTON1967-MassComp. Н.Н. Володичев, Н.Л. Григоров, И.А. Савенко Изучение энеретического аспределения частиц космических лучей с различными массами на ИСЗ "Протоно-1" и "Протон-2". Космические исследования, 1967, Т. 5. Вып. 3, С. 437--441.
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CRCAL-PROTON1967-1-2. Н.Н. Володичев, Н.Л. Григоров, В.Е. Нестеров, И.Д. Рапопорт, И.А. Савенко. Изучение химического состава первичных космических лучей в области умеренных энергий на космических станциях Протон-1 и Потон-2. Известия АН СССР, Сер. Физ., 1967, Т.~31, No8, С.~1229--1230.
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CRCAL-PROTON1967-SpectraZ. Н.Н. Володичев, Н.Л. Григоров, И.А. Савенко Изучение вида энергетических спектров ядер различных Z по измерениям на космических станциях Протон-1 и Протон-2. Известия АН СССР, Сер. Физ. 1967, Т.~31, No8, С. 1231--1232.
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CRCAL-PROTON1969-ICRC-211. V.V. Akimov, N.L. Grigorov, N.A. Mamontova, V.E. Nesterov, V.L. Prokhin, I.D. Rapoport, I.A. Savenko. Measurements of the inelastic proton-proton and protoncarbon cross-sections at energies 1010-1012 eV on board the satellites Proton 1, 2, and 3. Proceedings of the 11th International Conference on Cosmic Rays, held in Budapest, 25 August - 4 September, 1969. Acta Physica, Supplement to Volume 29. Edited by A. Somogyi, Vol. 3., p.211.
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CRCAL-PROTON1969-ICRC-517. V.V. Akimov, N.L. Grigorov, V.E. Nesterov, I.D. Rapoport, I.A. Savenko, G.A. Skuridin, A.F. Titenkov. Measurements of the primary cosmic ray spectra in the 1011-1014 eV energy range from Proton-1, 2, 3 satellites. Proceedings of the 11th International Conference on Cosmic Rays, held in Budapest, 25 August - 4 September, 1969. Edited by A. Somogyi, Vol. 1. Acta Physica, Supplement to Volume 29. Origin and Galactic Phenomena., p.517.
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CRCAL-PROTON1970-4-CONSTR. В.В. Бугаков, С.А. Беляков, Н.Л. Григоров, Ю.В. Губин, Л.Ф. Калинкин, Г.П. Кахидзе, И.Д. Рапопорт, И.А. Савенко, А.В. Смирнов, В.Я. Ширяева, П.П. Шишков, В.Ф. Шестериков, Б.М. Яковлев, Ю.В. Тригубов. Принципы устройства научной аппаратуры для изучения космических лучей высокой энергии на космической станции "Протон-4". Известия АН СССР, Сер. Физ., 1970, Т.~34, No9, С.~1818--1828.
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CRCAL-PROTON1970-CrossSections. Н.Л. Григоров, В.Е. Нестеров, И.Д. Рапопорт, И.А. Савенко, Г.А. Скуридин Измерение эффективных сечений неупругого взаимодействия протонов с ядрами углерода и водорода в области энергий 20--600~ГэВ на космических станциях "Протон-1", "Протон-2", и "Протон-3". ЯФ, 1970, Т. 11, вып. 4, С. 814--829.
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CRCAL-PROTON1970-1-3-Spectra. Н. Л. Григоров, В. Е. Нестеров, И. Д. Рапопорт, И. А. Савенко, Г. А. Скуридин. Изучение энергетического спектра первичных космических лучей высокой и сверхвысокой энергий на космических станциях "Протон". ЯФ, Т.11, вып.5, 1970, С.1058-1069.
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CRCAL-PROTON1971-12thICRC-4. N. L. Grigorov, Yu. V. Gubin, I. D. Rapoport, I. A. Savenko, B. M. Yakovlev, V. V. Akimov, V. E. Nesterov. Energy spectrum of primary cosmic rays in the 10^11-10^15 eV energy range according to the data of Proton-4 measurements. 12th Internation Conference on Cosmic rays, Hobard, Tasmania, Australia (1971). V. 5, P.1746-1751.
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CRCAL-PROTON1971-12thICRC-Irregularity. N.L. Grigorov, N.A. Mamontova, I.D. Rapoport, I.A. Savenko, V.V. Akimov, V.E. Nesterov. On iregularity in the primary cosmic ray spectrum in the $10^{12}$ energy range. 12th Internation Conference on Cosmic rays, Hobard, Tasmania, Australia (1971). V. 5, P.1752-1759.
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CRCAL-PROTON1971-12thICRC-He. N.L. Grigorov, I.D. Rapoport, I.A. Savenko, V.E. Nesterov, V.L. Prokhin. Energy spectrum of cosmic ray $\alpha$-particles in $5\times 10^{10}-10^{12}~eV/nucleon energy range. 12th Internation Conference on Cosmic rays, Hobard, Tasmania, Australia (1971). V. 5, P.1760-1768.
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CRCAL-PROTON1971-1-3-Irregularity. В.В. Акимов, Н.Л. Григоров, Н.А. Мамонтова, В.Е. Нестеров, И.Д. Рапопорт, И.А. Савенко. О нерегулярности в спектре космических лучей в области энергий $10^{12}$~эВ. Известия АН СССР, сер. физ. 1971, Т.35, No12, C.2439--2442.
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CRCAL-PROTON1971-1-3-He. Н.Л. Григоров, В.Е. Нестеров, В.Л. Прохин, И.Д. Рапопорт, И.А. Савенко. Энергетический спектр $\alpha$-частиц первичных космических лучей в области высоких энергий по данным измерения на исз "Протон". Известия АН СССР, сер. физ. 1971, Т.35, No12, C.2443--2445.
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CRCAL-PROTON1972-SpaceResearch. N.L. Grigorov, V.E. Nesterov, I.A. Savenko. Study of energy spectra of primary cosmic rays at very high energgies on the proton series of satellites. Space Research XII, V.2, P. 1617-1622.
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CRCAL-PROTON1973-AkimovDiss. В.В. Акимов (Акимов Валерий Васильевич, ИКИ, старший научный сотрудник, лаб.524, 333-40-44, к.740). Изучение энергетического спектра протонов первичных космических лучей на ИСЗ "ПРОТОН-3". Диссертация на соискание ученой степени кандидата физико-математических наук. Москва, 1973.
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CRCAL-RYAN1972. M.J. Ryan, J.F. Ormes, V.K. Balasubrahmanyan. Cosmic-Ray Proton and Helium Spectra above 50 GeV. Phys. Rev. Lett. V.28(15), 1972, P.985-988.
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CRCAL-SEO2012-AstroPart. E.S. Seo. Direct measurements of cosmic rays using balloon borne experiments. Astroparticle Physics 39-40 (2012) 76-87.
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CRCAL-SOKOL1981-ICRC. S.N. Vernov, I.P. Kumpan, L.G. Mishekno, V.V. Platonov, I.D. Rapoport, Yu.I. Samsonov, L.G. Smolenskii, P.V. Vakulov, V.A. Sobinjakov, Yu.V. Trigubov, Ch.A. Tretyakova, L.O. Chikova, V.J. Shestoperov, V.J. Shiraeva, N.L. Grigorov, I.V. Jashin, B.M. Jakovlev, D.A. Juravlev, I.P. Ivanenko. Device for Investigation of High Energy Primary Cosmic Rays. Proceedings of the 17th International Cosmic Ray Conference, held in Paris, France, 1981, V. 8., P.49-52.
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CRCAL-SOKOL1985-IzvAN. С.Н. Вернов, П.В. Вакулов, Н.Л. Григоров, Д.А. Журавлев, В.И. Зацепин, И.П. Иваненгко, И.П. Кумпан, Л.Г. Мищенко, Л.П. Папина, В.В. Платонов, И.Д. Рапопорт, Ю.И. Самсонов, Г.А. Самсонов, Л.Г. Смоленский, В.А. Собиняков, В.К. Соколов, Ч.А. Третьякова, Ю.В. Тригубов, Л.О. Чикова, В.Я. Шестоперов, В.Я. Ширяева, Б.М. Яковлев, И.В. Яшин. Высокостабильная и экономичная аппаратура для изучения первичных космических лучей. Известия АН СССР, Сер. Физ., 1985, Т.49, No7, С.1399-1401.
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CRCAL-SOKOL1986-JETPLett. I.P. Ivanenko, N.L. Grigorov, V.Ya. Shestoperov, Yu.B. Basina, P.V. Vakulov, Yu.Ya. Vasil'Ev, R.M. Golynskaya, L.B. Grigor'eva, D.A. Zhuravlev, V.I. Zatsepin, A.E. Kazakova, V.D. Kozlov, I.P. Kumpan, Yu.A. Laputin, L.G. Mishchenko, V.M. Nikanorov, L.P. Pnina, V.V. Platonov, D.M. Podorozhnyǐ, I.D. Rapoport, G.A. Samsonov, L.G. Smolenskiǐ, B.A. Sobinyakov, V.K. Sokolov, G.E. Tambovtsev, Ch.A. Tret'yakova, Yu.V. Trugubov, I.M. Fateeva, L.A. Khein, L.O. Chikova, V.Ya. Shiryaeva, B.M. Yakovlev, I.V. Yashin Multiply charged particles of the primary cosmic rays with energies => 2 TeV. Journal of Experimental and Theoretical Physics Letters, 1986, Vol. 44, p.200-202
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CRCAL-SOKOL1986-JETPLett-Rus. И.П. Иваненко, Н.Л. Григоров, В.Я. Шестоперов, Ю.В. Басина, П.В. Вакулов, Ю.Я. Васильев, Р.М. Голынская, Л.Б. Григорьева, Д.А. Журавлёв, В.И. Зацепин, А.Е. Казакова, В.Д. Козлов, И.П. Кумпан, Ю.А. Лапутин, Л.Г. Мищенко, В.М. Никаноров, Л.П. Папина, В.В. Платонов, Д.М. Подорожный, И.Д. Рапопорт, Г.А. Самсонов, Л.Г. Смоленский, В.А. Собиняков, В.К. Соколов, Г.Е. Тамбовцев, Ч.А. Третьякова, Ю.В. Тригубов, И.М. Фатеева, Л.А. Хейн, Л.О. Чикова, В.Я. Ширяева, Б.М. Яковлев, И.В Яшин. Многозарядные частицы первичных космических лучей с энергией \geq 2 ТэВ. [дифф. сп. кроме протонов Сокол-1] Письма в ЖЭТФ, 1986, Т. 44, p.200-202
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CRCAL-SOKOL1988-JETPLett. I.P. Ivanenko, I.D. Rapoport, V.Y. Shestoperov, Yu.V. Basina, P.V. Vakulov, Yu.Ya. Vasil'Ev, R.M. Golynskaya, Yu.P. Gordeev, L.B. Grigor'eva, A.E. Kazakova, V.D. Kozlov, I.P. Kumpan, L.G. Mishchenko, V.M. Nikanorov, L.P. Papina, V.V. Platoniv, D.M. Podorozhnyǐ, G.A. Samsonov, L.G. Smolenskiǐ, V.A. Sobinyakov, G.E. Tambovtsev, Yu.V. Trigubov, I.M. Fateeva, A.N. Fedorov, L.A. Kheǐn, L.O. Chikova, V.Ya. Shiryaeva, B.M. Yakovlev, I.V. Yashin Energy spectrum and charge composition of primary cosmic rays with energy above 2 TeV. ZhETF Pis ma Redaktsiiu, 1988, Vol. 48, p.468
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CRCAL-SOKOL1988-JETPLett-Rus. И.П. Иваненко, И.Д. Рапопорт, В.Я. Шестоперов, Ю.В. Васина, П.В. Вакулов, Ю.Я. Васильев, Р.М. Голынская, Ю.П. Гордеев, Л.Б. Григорьева, А.Е. Казакова, В.Д. Козлов, И.П. Кумпан, Л.Г. Мищенко, В.М. Никаноров, Л.П. Папина, В.В. Платонов, Д.М. Подорожный, Г.А. Самсонов, Л.Г. Смоленский, В.А. Собиняков, Г.Е. Тамбовцев, Ю.В. Тригубов, И.М. Фатеева, А.Н. Федоров, Л.А. Хейн, Л.О. Чикова, В.Я. Ширяева, Б.М. Яковлев, И.В Яшин. Энергетический спектр и зарядовый состав первичных космических лучей с энергией свыше 2 ТэВ. [Интегральные спектры p, He. Спектр Акимова (Протон) без ступеньки? Первая статья без Григорова] Письма в ЖЭТФ, 1988, Т. 48, p.468-471
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CRCAL-SOKOL1988-VestnikMGU. Н.Л. Григоров, И.П. Иваненко, И.Д. Рапопорт, В.Я. Шестоперов, Ю.В. Васина, П.В. Вакулов, Р.М. Голынская, Ю.П. Гордеев, Л.Б. Григорьева, Д.А. Журавлев, И.П. Кумпан, Л.Г. Мищенко, Л.П. Папина, В.В. Платонов, Д.М. Подорожный, Г.А. Самсонов, Л.Г. Смоленский, В.А. Собиняков, В.Л. Соколов, Ю.В. Тригубов, И.М. Фатеева, А.Н. Федоров, Л.А. Хейн, Л.О. Чикова, В.Я. Ширяева, Б.М. Яковлев, И.В Яшин. Изучение частиц высоких энергий первичного космического излучения на ИСЗ аппаратурой <<Сокол>>. Вест. МГУ, Сер. 3, физика, астрономия. 1988, Т. 29, No5, С.44-50.
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CRCAL-SOKOL1989-JETPLett. I.P. Ivanenko, I.D. Rapoport, V.Ya. Shestoperov, Yu.V. Basina, P.V. Vakulov, Yu.Ya. Vasil'Ev, R.M. Golynskaya, Yu.P. Gordeev, L.B. Grigor'eva, A.E. Kazakova, V.D. Kozlov, I.P. Kumpan, L.G. Mishchenko, V.M. Nikanorov, L.P. Papina, V.V. Platonov, D.M. Podorozhnyǐ, G.A. Samsonov, L.G. Smolenskiǐ, V.A. Sobinyakov, G.E. Tambovtsev, Yu.V. Trigubov, I.M. Fateeva, A.N. Fedorov, L.A. Kheǐn, L.O. Chikova, V.Ya. Shiryaeva, B.M. Yakovlev, I.V. Yashin Energy spectrum of primary cosmic-ray particles at 1-100 TeV from data from the Sokol package. ZhETF Pis ma Redaktsiiu, 1989, Vol. 49, p.222-224
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CRCAL-SOKOL1989-JETPLett-Rus. Иваненко И.П., Раппопорт И.Д., Шестоперов В.Я., Басина Ю.В., Вакулов П.В., Васильев Ю.Я., Голынская Р.М., Гордеев Ю.П., Григорьева Л.Б., Казакова А.Е., Козлов В.Д., Кумпан И.П., Мищенко Л.Г., Никаноров В.М., Папина Л.П., Платонов В.В., Подорожный Д.М., Самсонов Г.А., Смоленский Л.Г., Собиняков В.А., Тамбовцев Г.Е., Тригубов Ю.В., Фатеева И.М., Федоров А.Н., Хейн Л.А., Чикова Л.О Ширяева В.Я., Яковлев Б.М., Яшин И.В Энергетический спектр частиц первичных космических лучей при энергиях 1 \div 100 ТэВ по данным прибора "Сокол" . [Спектр всех частиц, отношение протонов к Z>=2] Письма в ЖЭТФ, 1989, Т. 48, p.192-194
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CRCAL-SOKOL1990-ICRC. P.I. Ivanenko, D.I. Rapoport, Ya.V. Shestoperov, V.Yu. Basina, V.P. Vakulov, Ya.Yu. Vasiliev, M.R. Golinskaya, P.Yu. Gordeev, B.L. Grigorieva, E.A. Kazakova, D.V. Kozlov, P.I. Kumpan, G.L. Mischenko, M.V. Nikanorov, P.L. Papina, V.V. Platonov, A.G. Samsonov, G.L. Smolensky, A.V. Sobinyakov, E.G. Tambovtsev, V.Yu. Trigubov, M.I. Fateeva, N.A. Fedorov, A.L. Hein, O.L. Chikova, Ya.V. Shiryaeva, M.B. Yakovlev, V.I. Yashin Energy Spectrum and Cosmic Ray Composition in the Region of Energies Higher than 1 TeV Investigated Onboard the "Cosmos-1543" and "Cosmos-1713" Satellites. [Много плохо читаемых картинок спектров, дифф и инт, уменьшение доли пртонов] Proceedings of the 21st International Cosmic Ray Conference. Volume 3 (OG Sessions), p.77-80.
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CRCAL-SOKOL1993-ICRC. I.P. Ivanenko, Shestoperov, V. Ya.; et al.. Energy Spectra of Cosmic Rays above 2 TeV as Measured by the 'SOKOL' Apparatus. [Здесь спектр всех частиц] 23rd International Cosmic Ray Conference, Vol. 2, 1993, Calgary, Alberta, Canada. P.17-20
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CRCAL-SOKOL1993-IzvRAN. И.П. Иваненко, В.Я. Шестоперов, Д.М. Подорожный, И.Д. Рапопорт, Г.А. Самсонов, В.А. Собиняков, А.Н. Турундаевский, И.М. Фатеева, Л.А. Хейн, Л.О. Чикова, И.В. Яшин. Энергетические спектры различных компонент космических лучей при энергиях выше 2 ТэВ, измеренные аппаратурой "Сокол". [А здесь спектра всех частиц нету] Известия Академии Наук, Сер. Физ., 1993, Т.57, No7, С.76-79.
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CRCAL-TIC1995-ICRC-685. J.H. Adams, N.L. Grigorov, M.I. Pnasyuk, V.I. Zatsepin. A Thin Electronic Calorimeter for Galactic Cosmic Ray Spectral Measurements. [Это не ТИК, это неосуществленный проект.] 24th International Cosmic Ray Conference, 1995, Vol. 3, p.685.
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CRCAL-TIC1995-ICRC-646. J.H.,Jr. Adams, J. Lee, A.A. Beliayev, Y.P. Gordeev, T.V. Lazareva, O.Y. Nechaev, M.I. Panasyuk, G.P. Sazhina, N.V. Sokolskaya, B.M. Yakovlev, V.I. Zatsepin. The Galactic Cosmic Ray All-Particles Spectrum, Preliminary Results from the TIC Experiment. [Здесь нет результатов, только описание прибора и полета] 24th International Cosmic Ray Conference, 1995, Vol. 2, p.646
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CRCAL-TIC1997-IzvRAN. Дж. Адамс, Дж. Ли, В.И. Зацепин, М.И. Панасюк, Н.В. Сокольская. Сектр всех частиц первичных космических лучей: данные эксперимента ТИК. Известия Академии Наук, Сер. Физ., 1997, Т.61, No6, С.1181-1185.
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Электроны в космических лучах - эксперимент

CRE-EXP-AMS01-2000. J. Alcaraz, B. Alpat, G. Ambrosi, et. al (AMS-01 collaboration) Leptons in near earth orbit. Physics Letters B, Volume 484, Issue 1-2, p. 10-22
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CRE-EXP-ANAND1973. K.C. Anand, R.R. Daniel, S.A. Stephens. Final Results on the TIFR Cosmic Ray Electron Spectrum in the Region 10 to 800 GeV. Proceedings of the 13th International Conference on Cosmic Rays, held in Denver, Colorado, Volume 1 (OG Sessions)., p.355
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CRE-EXP-BETS-2001-ASR. S. Torii, T. Tamura, N. Tateyama, et. al (BETS collaboration) Cosmic-ray electrons flux from 10 to 100 GeV measured by the BETS instrument. Adv. Space Res. 2001, V.27, No.4, P.675-680
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CRE-EXP-DAMPE-BINGBING-2018. Wang BingBing, Bi XiaoJun, Lin SuJie, Yin PengFei. Explanations of the DAMPE high energy electron/positron spectrum in the dark matter annihilation and pulsar scenarios. SCIENCE CHINA Physics, Mechanics & Astronomy 61(10), 101004(2018)
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CRE-EXP-FERMILAT2009A. Fermi/LAT Collaboration. Measurement of the Cosmic Ray e+ plus e- spectrum from 20 GeV to 1 TeV with the Fermi Large Area Telescope. Phys.Rev.Lett.102:181101,2009, arXiv:0905.0025v1 [astro-ph.HE].
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CRE-EXP-FERMILAT2009B. M.N. Mazziotta on behalf of the Fermi-LAT collaboration. Data Analysis for the Measurement of High Energy Cosmic Ray Electron/Positron Spectrum with Fermi-LAT. PROCEEDINGS OF THE 31st ICRC, LODZ 2009, icrc0449.pdf
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CRE-EXP-FERMILAT2010A. Fermi/LAT Collaboration. Searches for cosmic-ray electron anisotropies with the Fermi Large Area Telescope. Phys. Rev. D 82, 092003 (2010).
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CRE-EXP-FERMILAT2010B. Fermi/LAT Collaboration. Fermi LAT observations of cosmic-ray electrons from 7 GeV to 1 TeV. Phys.Rev.D82:092004,2010, arXiv:1008.3999v1 [astro-ph.HE].
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CRE-EXP-GOLDEN1984. R.L. Golden, B.G. Mauger, G.D. Badhwar, R.R. Daniel, J.L. Lacy, S.A. Stephens, J.E. Zipse. A measurement of the absolute flux of cosmic-ray electrons. Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 287, Dec. 15, 1984, p. 622-632.
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CRE-EXP-HEAT2001. M.A. DuVernois, S.W. Barwick, J.J. Beatty, A. Bhattacharyya, C.R. Bower, C.J. Chaput, S. Coutu, G.A. deNolfo, D.M. Lowder, S. McKee, D. Müller, J.A. Musser, S.L. Nutter, E. Schneider, S.P. Swordy, G. Tarlé, A.D. Tomasch, E. Torbet Cosmic-Ray Electrons and Positrons from 1 to 100 GeV: Measurements with HEAT and Their Interpretation. The Astrophysical Journal, Volume 559, Issue 1, pp. 296-303.
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CRE-EXP-HESS2008. F. Aharonian, A.G. Akhperjanian, et al. (H.E.S.S. collaboration) Energy Spectrum of Cosmic-Ray Electrons at TeV Energies. Physical Review Letters, vol. 101, Issue 26, id. 261104.
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CRE-EXP-HESS2009. F. Aharonian, A.G. Akhperjanian, G. Anton et al. (H.E.S.S. collaboration) Probing the ATIC peak in the cosmic-ray electron spectrum with H.E.S.S.. Astron.Astrophys.508:561-564, 2009, arXiv:0905.0105v1 [astro-ph.HE].
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CRE-EXP-MAGIC2011-arXiv. Borla D. Tridon, P. Colin, L. Cossio, M. Doro, V. Scalzotto, for the MAGIC Collaboration. Measurement of the cosmic electron plus positron spectrum with the MAGIC telescopes. arXiv:1110.4008v1 [astro-ph.HE]
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CRE-EXP-MAGIC2012-BorlaThes. Borla D. Tridon. A Study of Cosmic Electrons between 100 GeV and 2 TeV with the MAGIC Telescopes. Doktors der Naturwissenschaften genehmigten Dissertation. 2012.
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CRE-EXP-MEYER1971. P. Meyer, D. Muller. Flux and Energy Spectrum of Cosmic Ray Electrons between 10 and 1000 GeV. Proceedings of the 12th International Conference on Cosmic Rays, held in Tasmania, Australia, 16-25 August, 1971. Volume 1., p.117
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CRE-EXP-MULLER1997. D. Muller, S.W. Barwick, J.J. Beatty et. al. Energy spectra of electrons and positrons from 5 to 100 GeV.[HEAT spectrometer] In 25th ICR Conf. Papers Vol. 4 P. 237–240 (Space Research Unit, Durban, 1997).
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CRE-EXP-NISHIMURA1979. Taira, T.; Fujii, M.; Nishimura, J.; Aizu, E.; Hiraiwa, N.; Kobayashi, Ta.; Ohta, I.; Niu, K.; Lord, J. J.; Wilkes, R. J.; Koss, T.; Golden, R. L. Observation of High Energy Cosmic Electrons by Emulsion Chambers. 16th International Cosmic Ray Conference, Vol. 1. p.478.
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CRE-EXP-NISHIMURA1980. J. Nishimura, M. Fujii, T. Taira, E. Aizu, H. Hiraiwa, T. Kobayashi, K. Niu, I. Ohta, R.L. Golden, T.A. Koss, J.J. Lord, and R.J. Wilkes. Emulsion chamber observations of primary cosmic-ray electrons in the energy range 30-1000 GeV. ApJ, V238 (1980), P.394-409.
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CRE-EXP-NISHIMURA1993. T. Taira, J. Nishimura, M. Fujii, T. Kobayashi, H. Aizu, Y. Komori, M. Kazuno, T.A. Koss, J.J. Lord, R.J. Wilkes, E. Olson. Energy Spectrum and Confinement Time of Cosmic-ray Electrons. 23rd International Cosmic Ray Conference, Vol. 2, held 19-30 July, 1993 at University of Calgary, Alberta, Canada. Edited by D.A. Leahy, R.B. Hickws, and D. Venkatesan. Invited, Rapporteur, and Highlight Papers. Singapore: World Scientific, 1993., p.128
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CRE-EXP-NISHIMURA1997. J. Nishimura, T. Kobayashi, Y. Komori, T. Shirai, N. Tateyama and K. Yoshida. Observation of primary electron spectrum and its astrophysical significance. In 25th ICR Conf. Papers Vol. 4 P. 233–236 (Space Research Unit, Durban, 1997).
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CRE-EXP-NISHIMURA1999. T. Kobayashi, J. Nishimura, Y. Komori, T. Shirai, N. Tateyama, T. Taira, K. Yoshida, T. Yuda. High Energy Cosmic-Ray Electrons Beyond 100 GeV. Proceedings of the 26th International Cosmic Ray Conference. August 17-25, 1999. Salt Lake City, Utah, USA. Volume 3. p.61-64
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CRE-EXP-NISHIMURA2004. T. Kobayashi, Y. Komori, K. Yoshida, and J. Nishimura. The Most Likely Sources of High-Energy Cosmic-Ray Electrons in Supernova Remnants. The Astrophysical Journal, 601:340–351, 2004 January 20.
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CRE-EXP-NISHIMURA2011-ICRC. Tadashi Kobayashi, Yoshiko Komori, Kenji Yoshida, Jun Nishimira. High-energy electron observations from 30 GeV to 3 TeV with emulsion chambers. 32nd International Cosmic Ray Conference. 2011. Beijing V.6, P.60-63
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CRE-EXP-NYMMIK1981. Р.А. Ныммик. Наблюдение электронов с энергией $\geq 10^{12}$~эВ в первичном космическом излучении. Космические исследования, 1981, Т.XIX, Вып.6, стр.884-888.
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CRE-EXP-NYMMIK2003. Р.А. Ныммик. Электроны предельно высоких энергий, зарегестрированные в эксперименте на спутнике "Инеркосмос-6". Материалы Международной научной конференции "Интеркосмос-30". 9-10 апреля 2001 г. Москва, Ленинский проспект, д.32. Москва, "БЛОК-Информ-Экпресс", 2003, стр. 239-242
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CRE-EXP-PAMELA2010-IzvFIAN. S. V. Borisov, M. Boezio, S. A. Voronov, A. M. Galper, G. Jerse, A. V. Karelin, E. Mocchiutti, P. Picozza, O. Adriani, G. A. Bazilevskaya, R. Bellotti, V. Bonvicini, L. Bonechi, S. Bottai, A. Bruno, A. Vacchi, E. Vannuccini, G. Vasil’ev, J. Wu, L. Grishantseva, M. P. De Pascale, C. De Santis, N. De Simone, V. Di Felice, W. Gillard, G. Zampa, N. Zampa, V. G. Zverev, M. Casolino, D. Campana, R. Carbone, G. Castellini, P. Carlson, F. Cafagna, A. N. Kvashnin, S. V. Koldashov, L. Consiglio, S. Yu. Krutkov, A. Leonov, V. Malvezzi, L. Marcelli, W. Menn, V. V. Mikhailov, A. Monaco, N. Mori, N. Nikonov, G. Osteria, P. Papini, M. Pearce, S. B. Ricciarini, M. Ricci, L. Rossetto, M. Simon, R. Sparvoli, P. Spillantini, Yu. I. Stozhkov, P. Hofverberg, and Yu. T. Yurkin. . Measurement of the High-Energy Electron and Positron Spectrum in the PAMELA Experiment. Bulletin of the Lebedev Physics Institute, 2010, Vol. 37, No. 6, pp. 184-190.
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CRE-EXP-PAMELA2011-PhysRevLett. O. Adriani, G. C. Barbarino, G. A. Bazilevskaya, R. Bellotti, M. Boezio, E. A. Bogomolov, M. Bongi, V. Bonvicini, S. Borisov, S. Bottai, A. Bruno, F. Cafagna, D. Campana, R. Carbone, P. Carlson, M. Casolino, G. Castellini, L. Consiglio, M. P. De Pascale, C. De Santis, N. De Simone, V. Di Felice, A. M. Galper, W. Gillard, L. Grishantseva, G. Jerse, A. V. Karelin, S. V. Koldashov, S. Y. Krutkov, A. N. Kvashnin, A. Leonov, V. Malakhov, V. Malvezzi, L. Marcelli, A. G. Mayorov, W. Menn, V. V. Mikhailov, E. Mocchiutti, A. Monaco, N. Mori, N. Nikonov, G. Osteria, F. Palma, P. Papini, M. Pearce, P. Picozza, C. Pizzolotto, M. Ricci, S. B. Ricciarini, L. Rossetto, R. Sarkar, M. Simon, R. Sparvoli, P. Spillantini, S. J. Stochaj, J. C. Stockton, Y. I. Stozhkov, A. Vacchi, E. Vannuccini, G. Vasilyev, S. A. Voronov, J. Wu, Y. T. Yurkin, G. Zampa, N. Zampa, and V. G. Zverev. . Cosmic-Ray Electron Flux Measured by the PAMELA Experiment between 1 and 625 GeV. PRL 106, 201101 (2011).
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CRE-EXP-PPB-BETS2008-ASR. K. Yoshida, S. Torii, T. Yamagami, T. Tamura, H. Kitamura, J. Chang, I. Iijima, A. Kadokura, K. Kasahara, Y. Katayose, T. Kobayashi, Y. Komori, Y. Matsuzaka, K. Mizutani, H. Murakami, M. Namiki, J. Nishimura, S. Ohta, Y. Saito, M. Shibata, N. Tateyama, H. Yamagishi, T. Yuda Cosmic-ray electron spectrum above 100 GeV from PPB-BETS experiment in Antarctica. Advances in Space Research 42 (2008) 1670–1675.
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CRE-EXP-PPB-BETS2008-ICRC. Yoshida, K.; Torii, S.; Tamura, T.; et al. Energy spectrum and arrival directions of high-energy electrons over 100 GeV observed with PPB-BETS. Proceedings of the 30th International Cosmic Ray Conference. July 3 - 11, 2007, Mérida, Yucatán, Mexico. Edited by Rogelio Caballero, Juan Carlos D'Olivo, Gustavo Medina-Tanco, Lukas Nellen, Federico A. Sánchez, José F. Valdés-Galicia. Universidad Nacional Autónoma de México, Mexico City, Mexico, 2008. Volume 2, p.59-62
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CRE-EXP-PRINCE-1977-ICRC-366. G. Hartmann, D. Mueller, T. Prince. A new measurement of the cosmic ray electron spectrum from 10 GeV to 300 GeV. International Cosmic Ray Conference, 15th, Plovdiv, Bulgaria, August 13-26, 1977, Conference Papers. Volume 1. (A79-37301 15-93) Sofia, B'lgarska Akademiia na Naukite, 1978, p. 366-371.
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CRE-EXP-PRINCE-1977-ICRC-360. D. Mueller, T. Prince. Cosmic ray electrons - A discussion of recent observations. International Cosmic Ray Conference, 15th, Plovdiv, Bulgaria, August 13-26, 1977, Conference Papers. Volume 1. (A79-37301 15-93) Sofia, B'lgarska Akademiia na Naukite, 1978, p. 360-365..
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CRE-EXP-PRINCE-1977-PhysRevLett. G. Hartmann, D. Mueller, T. Prince. High-energy cosmic-ray electrons - A new measurement using transition-radiation detectors. Physical Review Letters, vol. 38, June 6, 1977, p. 1368-1372.
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CRE-EXP-TANG1984 K.-K. Tang. The energy spectrum of electrons and cosmic-ray confinement. A new measurement and its interpretation. [+leaky-box for electrons] Astrophysical Journal, Part 1 vol. 278, March 15, 1984, p. 881-892.
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CRE-EXP-SILVERBERG1973. Silverberg, R. F.; Ormes, J. F.; Balasubrahmanyan, V. K. The Shape of the Primary Cosmic Ray Electron Spectrum Above 10 GeV [Эксперимент. Калориметр. Особенность!]. 13th International Conference on Cosmic Rays, held in Denver, Colorado, Volume 1 (OG Sessions)., p.347-352
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CRE-EXP-TORII2001 S. TORII, T. TAMURA, N. TATEYAMA, K. YOSHIDA, J. NISHIMURA, T. YAMAGAMI, H. MURAKAMI, T. KOBAYASHI, Y. KOMORI, K. KASAHARA, T. YUDA The Energy Spectrum of Cosmic-Ray Electrons from 10 to 100 GeV Observed with a Highly Granulated Imaging Calorimeter. ApJ 559 (2001) 973.
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CRE-EXP-VORONOV2009. С.А. Воронов, С.В. Борисов, А.В. Карелин. Разделение электронов и протонов с помощью калориметра в экспериментах по прямому измерению состава и энергетических спектров космических лучей УФН, Т.179,No.9(2009), С.931-944.
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CRE-EXP-ZATSEPIN1971. В.И. Зацепин, В.И. Рубцов, Н.С. Свиржевский. Энргетический спектр электронов в области высоких энергий Геомагнетизм и аэрономия, Т.11, No.3, 1971, С.417--423.
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Позитроны в космических лучах - эксперимент

CRE-EXP-POS-AMS01-2007. AMS-01 Collaboration: M. Aguilar, J. Alcaraz, J. Allaby, et al. Cosmic-ray positron fraction measurement from 1 to 30 GeV with AMS-01. Physics Letters B, Volume 646, Issue 4, p. 145-154 (arXiv:astro-ph/0703154)
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CRE-EXP-POS-AMS02-2013. AMS-02 Collaboration: M. Aguilar, G. Alberti, B. Alpat, et al. First Result from the Alpha Magnetic Spectrometer on the International Space Station: Precision Measurement of the Positron Fraction in Primary Cosmic Rays of 0.5–350 GeV. PRL 110, 141102 (2013).
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CRE-EXP-POS-BARWICK1997. S.W. Barwick, J.J. Beatty, A. Bhattacharyya, C.R. Bower, C.J. Chaput, S. Coutu, G.A. deNolfo, J. Knapp, D.M. Lowder, S. McKee, D. Mueller, J.A. Musser, S.L. Nutter, E. Schneider, S.P. Swordy, G. Tarle, A.D. Tomasch, E. Torbet, HEATC ollaboration. Measurements of the Cosmic-Ray Positron Fraction from 1 to 50 GeV [HEAT]. Astrophysical Journal Letters v.482, p.L191
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CRE-EXP-POS-BASINI1991. G. Basini, B. Bongiorno, M.T. Brunetti, A. Codino, R.L. Golden, C. Grimani, B.L. Kimbell, M. Menichelli, A. Morselli, J.F. Ormes, M.P. DePascale, P. Picozza, M. Ricci, I. Salvatori, E. Seo, P. Spillantini, S.A. Stephens, R.E. Streitmatter, S.J. Stochaj, W.R. Webber Observations of Cosmic Ray Electrons and Positrons Using an Imaging Calorimeter. Proceedings of the 22nd International Cosmic Ray Conference. 11-23 August, 1991. Dublin, Ireland. Under the auspices of the International Union of Pure and Applied Physics (IUPAP), Volume 2, Contributed Papers, OG Sessions 6-11. Dublin: The Institute for Advanced Studies, 1991., p.137
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CRE-EXP-POS-BUFFINGTON1975. A. Buffington, C.D. Orth, G.F. Smoot. Measurement of primary cosmic-ray electrons and positrons from 4 to 50 GeV. Astrophysical Journal, vol. 199, Aug. 1, 1975, pt. 1, p. 669-679.
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CRE-EXP-POS-CAPRICE2000. M. Boezio, P. Carlson, T. Francke, N. Weber, M. Suffert, M. Hof, W. Menn, M. Simon, S.A. Stephens, R. Bellotti, F. Cafagna, M. Castellano, M. Circella, C. DeMarzo, N. Finetti, P. Papini, S. Piccardi, P. Spillantini, M. Ricci, M. Casolino, M.P. DePascale, A. Morselli, P. Picozza, R. Sparvoli, G. Barbiellini, U. Bravar, P. Schiavon, A. Vacchi, N. Zampa, C. Grimani, J.W. Mitchell, J.F. Ormes, R.E. Streitmatter, R.L. Golden, S.J. Stochaj. The Cosmic-Ray Electron and Positron Spectra Measured at 1 AU during Solar Minimum Activity. The Astrophysical Journal, Volume 532, Issue 1, pp. 653-669
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CRE-EXP-CAPRICE-2001-ASR. M. Boezio, G. Barbiellini, V. Bonvicini, et al (CAPRICE collaboration) Measurements of cosmic-ray electrons and positrons by the Wizard/CAPRICE collaboration. Adv. Space Res. 2001, V.27, No.4, P.669-674
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CRE-EXP-POS-CLEM2008. John Clem, Paul Evenson. Cosmic Ray Positron Fraction Observations during the A-Magnetic Solar Minimum. 30th International Cosmic Ray Conference. July 3 - 11, 2007, Mérida, Yucatán, Mexico. Edited by Rogelio Caballero, Juan Carlos D'Olivo, Gustavo Medina-Tanco, Lukas Nellen, Federico A. Sánchez, José F. Valdés-Galicia. Universidad Nacional Autónoma de México, Mexico City, Mexico, 2008. Volume 1, p.477-480.
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CRE-EXP-POS-DAUGHERTY1975. J.K. Daugherty, R.C Hartman, P.J. Schmidt. A measurement of cosmic-ray positron and negatron spectra between 50 and 800 MV. Astrophysical Journal, vol. 198, June 1, 1975, pt. 1, p. 493-505
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CRE-EXP-POS-FANSELOW1969. J.L Fanselow, R.C. Hartman, R.H. Hildebrad, Peter Meyer. Charge Composition and Energy Spectrum of Primary Cosmic-Ray Electrons. Astrophysical Journal, vol. 158, p.771.
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CRE-EXP-POS-FERMI-2011-1064. J. Vandenbroucke, W. Mitthumsiri, C. Sgro, M. Ackermann, S. Funk, for the Fermi LAT collaboration. Measurement of the cosmic ray positron spectrum with the Fermi LAT using the Earth’s magnetic ﬁeld. icrc32, Beijing, 2011, ID 1064.
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CRE-EXP-POS-FERMI-2011-ArXiv. M. Ackermann, et al. Measurement of separate cosmic-ray electron and positron spectra with the Fermi Large Area Telescope. PRL 108, 011103 (2012), arXiv:1109.0521 [astro-ph.HE], 2011.
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CRE-EXP-POS-GOLDEN1987. R.L. Golden, B.G. Mauger, S. Horan, S.A. Stephens, R.R. Daniel, G.D. Badhwar, J.L. Lacy, J.E. Zipse. Observation of cosmic ray positrons in the region from 5 to 50 GeV. Astronomy and Astrophysics (ISSN 0004-6361), vol. 188, no. 1, Dec. 1987, p. 145-154..
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CRE-EXP-POS-GOLDEN1996. R.L. Golden, S.J. Stochaj, S.A. Stephens, F. Aversa, G. Barbiellini, M. Boezio, U. Bravar, A. Colavita, F. Fratnik, P. Schiavon, A. Vacchi, N. Zampa, J.W. Mitchell, J.F. Ormes, R.E. Steitmatter, R. Bellotti, F. Cafagna, M. Castellano, M. Circella, G. deCataldo, C. deMarzo, N. Giglietto, B. Marangelli, A. Raino, P. Spinelli, M. Bocciolini, N. Finetti, P. Papini, A. Perego, S. Piccardi, P. Spillantini, G. Basini, F. MassimoBrancaccio, M. Ricci, M.T. Brunetti, A. Codino, C. Grimani, M. Menichelli, V. Bidoli, M. Candusso, M. Casolino, M.P. dePascale, A. Morselli, P. Picozza, R. Sparvoli, M. Hof, W. Menn, M. Simon. Measurement of the Positron to Electron Ratio in Cosmic Rays above 5 GeV. Astrophysical Journal Letters v.457, p.L103
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CRE-EXP-POS-HEAT2004. J.J. Beatty, A. Bhattacharyya, C. Bower, S. Coutu, M.A. Duvernois, S. McKee, S.A. Minnick, D. Müller, J. Musser, S. Nutter, A.W. Labrador, M. Schubnell, S. Swordy, G. Tarlé, A. Tomasch. New Measurement of the Cosmic-Ray Positron Fraction from 5 to 15GeV. Physical Review Letters, vol. 93, Issue 24, id. 241102
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CRE-EXP-POS-MULLER1987. Dietrich Mueller, Kwork-Kwong Tang. Cosmic-ray positrons from 10 to 20 GeV - A balloon-borne measurement using the geomagnetic east-west asymmetry. Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 312, Jan. 1, 1987, p. 183-194.
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CRE-EXP-POS-PAMELA-NATURE2009. O. Adriani, G. C. Barbarino, G. A. Bazilevskaya, R. Bellotti, M. Boezio, E. A. Bogomolov, L. Bonechi, M. Bongi, V. Bonvicini, S. Bottai, A. Bruno, F. Cafagna, D. Campana, P. Carlson, M. Casolino, G. Castellini, M. P. De Pascale, G. De Rosa, N. De Simone, V. Di Felice, A. M. Galper, L. Grishantseva, P. Hofverberg, S. V. Koldashov, S. Y. Krutkov, A. N. Kvashnin, A. Leonov, V. Malvezzi, L. Marcelli, W. Menn, V. V. Mikhailov, E. Mocchiutti, S. Orsi, G. Osteria, P. Papini, M. Pearce, P. Picozza, M. Ricci, S. B. Ricciarini, M. Simon, R. Sparvoli, P. Spillantini, Y. I. Stozhkov, A. Vacchi, E. Vannuccini, G. Vasilyev, S. A. Voronov, Y. T. Yurkin, G. Zampa, N. Zampa, V. G. Zverev An anomalous positron abundance in cosmic rays with energies 1.5–100 GeV Nature, V. 458 (2009), P.607-609
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CRE-EXP-POS-PAMELA-2011-APh. O. Adriani, G. C. Barbarino, G. A. Bazilevskaya, R. Bellotti, M. Boezio, E. A. Bogomolov, L. Bonechi, M. Bongi, V. Bonvicini, S. Borisov, S. Bottai, A. Bruno, F. Cafagna, D. Campana, R. Carbone, P. Carlson, M. Casolino, G. Castellini, L. Consiglio, M. P. De Pascale, C. De Santis, N. De Simone, V. Di Felice, A. M. Galper, W. Gillard, L. Grishantseva, P. Hofverberg, G. Jerse, S. V. Koldashov, S. Y. Krutkov, A. N. Kvashnin, A. Leonov, V. Malvezzi, L. Marcelli, W. Menn, V. V. Mikhailov, E. Mocchiutti, A. Monaco, N. Mori, N. Nikonov, G. Osteria, P. Papini, M. Pearce, P. Picozza, M. Ricci, S. B. Ricciarini, L. Rossetto, M. Simon, R. Sparvoli, P. Spillantini, Y. I. Stozhkov, A. Vacchi, E. Vannuccini, G. Vasilyev, S. A. Voronov, J. Wu, Y. T. Yurkin, G. Zampa, N. Zampa, V. G. Zverev, D. Marinucci A statistical procedure for the identification of positrons in the PAMELA experiment Astroparticle Physics, Volume 34, Issue 1, p. 1-11 (arXiv:1001.3522)
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CRE-EXP-POS-PAMELA-2013-PRL. O. Adriani, G. C. Barbarino, G. A. Bazilevskaya, R. Bellotti, A. Bianco, M. Boezio,E. A. Bogomolov,M. Bongi, V. Bonvicini, S. Bottai, A. Bruno, F. Cafagna, D. Campana, R. Carbone, P. Carlson, M. Casolino, G. Castellini, C. De Donato, C. De Santis, N. De Simone, V. Di Felice, V. Formato, A. M. Galper, A. V. Karelin, S. V. Koldashov, S. A. Koldobskiy, S. Y. Krutkov, A. N. Kvashnin, A. Leonov, V. Malakhov, L. Marcelli, M. Martucci, A. G. Mayorov, W. Menn, M. Merge, V. V. Mikhailov, E. Mocchiutti, A. Monaco, N. Mori, R. Munini, G. Osteria, F. Palma, P. Papini, M. Pearce, P. Picozza, C. Pizzolotto, M. Ricci, S. B. Ricciarini, L. Rossetto, R. Sarkar, V. Scotti, M. Simon, R. Sparvoli, P. Spillantini, S. J. Stochaj, J. C. Stockton, Y. I. Stozhkov, A. Vacchi, E. Vannuccini, G. I. Vasilyev, S. A. Voronov,16 Y. T. Yurkin, G. Zampa, N. Zampa, and V. G. Zverev. Cosmic-Ray Positron Energy Spectrum Measured by PAMELA. PRL 111, 081102 (2013)
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Электроны в космических лучах - теория

CRE-THEOR-AHARONIAN1995-A+A. F.A. Aharonian, A.M. Atoyan, H.J. Voelk. High energy electrons and positrons in cosmic rays as an indicator of the existence of a nearby cosmic tevatron. Astronomy and Astrophysics (ISSN 0004-6361), 1995, vol. 294, no. 3, p. L41-L44
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CRE-THEOR-ATOYAN1995-PhysRevD. A.M. Atoyan, F.A. Aharonian, H.J. Völk. Electrons and positrons in the galactic cosmic rays. Physical Review D (Particles, Fields, Gravitation, and Cosmology), Volume 52, Issue 6, 15 September 1995, pp.3265-3275
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CRE-THEOR-ATOYAN1995-ICRC. A.M. Atoyan, F.A. Aharonian, H.J. Volk. Energy-Dependent Propagation of High Energy Electrons. 24th International Cosmic Ray Conference, Vol. 3, held August 28-September 8, 1995 in Rome, Italy. Edited by N. Iucci and E. Lamanna. International Union of Pure and Applied Physics, 1995., p.21
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CRE-THEOR-BLASI2008. Dan Hooper, Pasquale Blasi, Pasquale Dario Serpico. Pulsars as the Sources of High Energy Cosmic Ray Positrons. JCAP 0901:025,2009 (arXiv:0810.1527 [astro-ph])
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CRE-THEOR-BLASI2009. Pasquale Blasi. The origin of the positron excess in cosmic rays. Phys.Rev.Lett.103:051104,2009 (arXiv:0903.2794v2 [astro-ph.HE])
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CRE-THEOR-BLASI2010. Pasquale Blasi, Elena Amato. Positrons from pulsar winds. arXiv:1007.4745v1 [astro-ph.HE]
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CRE-THEOR-BLUM2013. Kfir Blum, Boaz Katz, Eli Waxman. AMS02 results support the secondary origin of cosmic ray positrons. Phys. Rev. Lett. 111, 211101 (2013) (arXiv:1305.1324 [astro-ph.HE])
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CRE-THEOR-BOURALIS1989. Ahmed Boulares. The nature of the cosmic-ray electron spectrum, and supernova remnant contributions. Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 342, July 15, 1989, p. 807-813
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CRE-THEOR-CERNUDA2009 Ignacio Cernuda. Cosmic ray electron anisotropies as a tool to discriminate between exotic and astrophysical sources. arXiv:0905.1653v3 [astro-ph.HE].
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CRE-THEOR-CLINE2010-PhysRev81. Cline, James M.; Vincent, Aaron C.; Xue, Wei Leptons from dark matter annihilation in Milky Way subhalos. Physical Review D, vol. 81, Issue 8, id. 083512
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CRE-THEOR-CLINE2010-PhysRev82. Vincent, Aaron C.; Xue, Wei; Cline, James M. Overcoming gamma ray constraints with annihilating dark matter in Milky Way subhalos. Physical Review D, vol. 82, Issue 12, id. 123519
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CRE-THEOR-COUTU1999. Stéphane Coutu, Steven W. Barwick, James J. Beatty, Amit Bhattacharyya, Chuck R. Bower, Christopher J. Chaput, Georgia A. de Nolfo, Michael A. Duvernois, Allan Labrador, Shawn P. McKee, Dietrich Müller, James A. Musser, Scott L. Nutter, Eric Schneider, Simon P. Swordy, Gregory Tarlé, Andrew D. Tomasch, Eric Torbet Cosmic-ray positrons: are there primary sources? Astroparticle Physics, Volume 11, Issue 4, p. 429-435 (arXiv:astro-ph/9902162)
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CRE-THEOR-COWSIK2009. R. Cowsik, B. Burch Analysis of the Positron Fraction and the Spectrum of the Electronic Component in Cosmic Rays. [nested leaky-box model] arXiv:0908.3494v1 [astro-ph.CO
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CRE-THEOR-COWSIK2010. B. Burch, R. Cowsik On the Positron Fraction and Cosmic-Ray Propagation Models. [nested leaky-box model] arXiv:1009.1361v1 [astro-ph.HE]
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CRE-THEOR-DELAHAYE2008. T. Delahaye, R. Lineros, F. Donato, N. Fornengo, P. Salati. Positrons from dark matter annihilation in the galactic halo: Theoretical uncertainties. Physical Review D, vol. 77, Issue 6, id. 063527.
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CRE-THEOR-DELAHAYE2009. T. Delahaye, F. Donato, N. Fornengo, J. Lavalle, R. Lineros, P. Salati, R. Taillet. Galactic secondary positron flux at the Earth. arXiv:0809.5268v6 [astro-ph], A&A.501:821-833,2009.
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CRE-THEOR-DELAHAYE2010. T. Delahaye, J. Lavalle, R. Lineros, F. Donato, N. Fornengo. Galactic electrons and positrons at the Earth:new estimate of the primary and secondary fluxes. Astronomy and Astrophysics, Volume 524, id.A51 (2010) (arXiv:1002.1910v2 [astro-ph.HE]).
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CRE-THEOR-EW2002 A.D. Erlykin and A.W. Wolfendale. Supernova remnants and the origin of the cosmic radiation: the electron component. J. Phys. G: Nucl. Part. Phys. 28 (2002) 359-378.
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CRE-THEOR-EW2009 A.D. Erlykin and A.W. Wolfendale. The Knee in the Cosmic Ray Energy Spectrum. 31ICRC:0301 (2009) (arXiv:0906.3949 [hep-ph]).
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CRE-THEOR-FENG2012. Lei Feng, Qiang Yuan, Yi-Zhong Fan. Tentative wiggle in the cosmic ray electron/positron spectrum at $\sim$100 GeV: a dark matter annihilation signal in accordance with the 130 GeV $γ-$ray line? [Здесь есть интересные ссылки на 130-ГэВ особенность в гамма-спектре, в связи с DM] arXiv:1206.4758v1 [astro-ph.HE]
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CRE-THEOR-FERMILAT-GENDELEV2010 Leo Gendelev, Stefano Profumo, and Michael Dormody. The Contribution of Fermi Gamma-Ray Pulsars to the local Flux of Cosmic-Ray Electrons and Positrons. Journal of Cosmology and Astroparticle Physics, Issue 02, pp. 016 (2010) (arXiv:1001.4540v1 [astro-ph.HE]).
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CRE-THEOR-GRASSO2009. D. Grasso, S. Profumo, A.W. Strong, L. Baldini, R. Bellazzini, E.D. Bloom, J. Bregeon, G. Di Bernardo, D. Gaggero, N. Giglietto, T. Kamae, L. Latronico, F. Longo, M.N. Mazziotta, A.A. Moiseev, A. Morselli, J.F. Ormes, M. Pesce-Rollins, M. Pohl, M. Razzano, C. Sgro, G. Spandre, T.E. Stephens. On possible interpretations of the high energy electron–positron spectrum measured by the Fermi Large Area Telescope. Astroparticle Physics 32 (2009) 140-151
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CRE-THEOR-GRASSO2011. Daniele Gaggero, Dario Grasso. CR electrons and positrons: what we have learned in the latest three years and future perspectives. arXiv:1110.6626v2 [astro-ph.HE]
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CRE-THEOR-KANE2002. G.L. Kane, L.-T. Wang, T. T. Wang. Supersymmetry and the cosmic ray positron excess. Physics Letters B, Volume 536, Issue 3-4, p. 263-269
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CRE-THEOR-KATZ2009. Boaz Katz, Kfir Blum, Jonathan Morag, Eli Waxman. What can we really learn from positron flux 'anomalies'? Mon.Not.Roy.Astron.Soc.405:1458,2010 (arXiv:0907.1686 [astro-ph.HE])
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CRE-THEOR-KAWANAKA2009. Norita Kawanaka, Kunihito Ioka, Mihoko M. Nojiri. Cosmic-Ray Electron Excess from Pulsars is Spiky or Smooth?: Continuous and Multiple Electron/Positron injections. Astrophys.J.710:958-963,2010, rXiv:0903.3782v2 [astro-ph.HE]
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CRE-THEOR-KOBAYASHI-2001-ASR. T. Kobayshi, J. Nishimura, Y. Komori, K. Yoshida. Vela as the most likely source for the primary electrons in TeV region. Adv. Space Res. 2001, V.27, No.4. P.653-658
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CRE-THEOR-MALYSHEV2009A. Michael Kuhlen, Dmitry Malyshev. ATIC, PAMELA, HESS, and Fermi data and nearby dark matter subhalos. Phys. Rev. D 79, 123517 (2009) P. 123517-1 - 123517-12.
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CRE-THEOR-MALYSHEV2009B. Dmitry Malyshev, Ilias Cholis, and Joseph Gelfand. Pulsars versus dark matter interpretation of ATIC/PAMELA. Phys. Rev. D 80, 063005 (2009) P. 063005-1 - 063005-16.
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CRE-THEOR-MERTSCH2009-PhysRevLett. Philipp Mertsch, Subir Sarkar. Testing Astrophysical Models for the PAMELA Positron Excess with Cosmic Ray Nuclei. Physical Review Letters, vol. 103, Issue 8, id. 081104
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CRE-THEOR-MERTSCH2009-PhysRevD. Markus Ahlers; Philipp Mertsch, Subir Sarkar. Cosmic ray acceleration in supernova remnants and the FERMI/PAMELA data. Physical Review D, vol. 80, Issue 12, id. 123017
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CRE-THEOR-MERTSCH2011. Philipp Mertsch, Subir Sarkar. The 'PAMELA anomaly' indicates a nearby cosmic ray accelerator. arXiv:1108.1753v1 [astro-ph.HE]
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CRE-THEOR-MULLER-2001-ASR. Dietrich Muller. Cosmic-ray electrons and positrons. Adv. Space Res. 2001, V.27, No.4, p. 659-668.
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CRE-THEOR-PETROSIAN2010. Lukasz Stawarz, Vahe Petrosian, and Roger D. Blandford ON THE ENERGY SPECTRA OF GeV/TeV COSMIC RAY LEPTONS. The Astrophysical Journal, 710:236–247, 2010 February 10.
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CRE-THEOR-PIRAN2009. Tsvi Piran, Nir J. Shaviv, Ehud Nakar. Inhomogeneity in the Supernova Remnants as a Natural Explanation of the PAMELA/ATIC Observations. arXiv:0905.0904v1 [astro-ph.HE].
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CRE-THEOR-PIRAN2009-PRL. Nir J. Shaviv, Ehud Nakar; Tsvi Piran. Inhomogeneity in Cosmic Ray Sources as the Origin of the Electron Spectrum and the PAMELA Anomaly. Physical Review Letters, vol. 103, Issue 11, id. 111302.
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CRE-THEOR-POHL1998 Martin Pohl, Joseph A. Esposito. Electron Acceleration in Supernova Remnants and Diffuse Gamma Rays above 1 GeV. ApJ, 1998, Volume 507, Issue 1, pp. 327-338. (arXiv:astro-ph/9806160))
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CRE-THEOR-PORTER2008. Troy A. Porter, Igor V. Moskalenko, Andrew W. Strong, Elena Orlando, L. Bouchet. INVERSE COMPTON ORIGIN OF THE HARD X-RAY AND SOFT GAMMA-RAY EMISSION FROM THE GALACTIC RIDGE The Astrophysical Journal, 682:400Y407, 2008.
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CRE-THEOR-PROFUMO2008. Stefano Profumo. Dissecting cosmic-ray electron-positron data with Occam's Razor: the role of known Pulsars. arXiv:0812.4457v2 [astro-ph] (Central European Journal of Physics Volume 10, Number 1, 1-31 (2011)).
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CRE-THEOR-PROFUMO2010 Leo Gendelev, Stefano Profumo, Michael Dormody The Contribution of Fermi Gamma-Ray Pulsars to the local Flux of Cosmic-Ray Electrons and Positrons. arXiv:1001.4540v1 [astro-ph.HE] (Journal of Cosmology and Astroparticle Physics, Issue 02, id. 016 (2010)).
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CRE-THEOR-PROTHEROE1982. R.J. Protheroe. On the nature of the cosmic ray positron spectrum. Astrophysical Journal, Part 1, vol. 254, Mar. 1, 1982, p. 391-397..
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CRE-THEOR-RAMATY1979-Nature. R. Ramaty, R.L. Lingenfelter. Gamma-ray line astronomy. Nature, vol. 278, Mar. 8, 1979, p. 127-132.
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CRE-THEOR-RAMATY1979. R.L. Lingenfelter, R. Ramaty. Primary Cosmic Ray Positrons and Galactic Annihilation Radiation. 16th International Cosmic Ray Conference, Vol. 1. Published by the Institute for Cosmic Ray Research, University of Tokyo, 3-2-1, Midori-cho Tanashi, Tokyo 18 JAPAN Edited by Saburo Miyake. International Union of Pure and Applied Physics. ; Nihon Gakujutsu Kaigi. ; Nihon Butsuri Gakkai. LCCN: 80-502341, p.501.
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CRE-THEOR-RAMATY1990. C.D. Ellison, C.F. Jones, R. Ramaty. Diffusive Shock Acceleration of Decay Positrons in Supernovae. Proceedings of the 21st International Cosmic Ray Conference. Volume 4 (OG Sessions), p.68.
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CRE-THEOR-SHEN1970. C. S. Shen. Pulsars and Very High-Energy Cosmic-Ray Electrons. Astrophysical Journall, vol. 162, p.L181.
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CRE-THEOR-SCHLICKEISER2009. R. Schlickeiser, J. Ruppel. Klein-Nishina steps in the energy spectrum of galactic cosmic ray electrons. arXiv:0908.2183v1 [astro-ph.HE].
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CRE-THEOR-SM1998A. I.V. Moskalenko and A.W. Strong. PRODUCTION AND PROPAGATION OF COSMIC-RAY POSITRONS AND ELECTRONS. Astrophys. J., V. 493 (1998), P. 694-707.
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CRE-THEOR-SM1998B. Andrew W. Strong, Igor V. Moskalenko. Propagation of Cosmic-Ray Nucleons in the Galaxy. The Astrophysical Journal, Volume 509, Issue 1, pp. 212-228.
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CRE-THEOR-SM-2001-ASR. A.W. Strong, I.V. Moskalenko. Models for galactic cosmic-ray propagation. Adv. Space Res. 2001, V.27, No.4, pp. 717-726.
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CRE-THEOR-SM-REIMER2004B. Andrew W. Strong, Igor V. Moskalenko, and Olaf Reimer. Diffuse Galactic Continuum Gamma Rays: A Model Compatible with EGRET Data and Cosmic-Ray Measurements. The Astrophysical Journal, 613:962-976, 2004.
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CRE-THEOR-SM-PTUSKIN-2006. Vladimir S. Ptuskin, Igor V. Moskalenko, Frank C. Jones, Andrew W. Strong, Vladimir N. Zirakashvili. Dissipation of Magnetohydrodynamic Waves on Energetic Particles: Impact on Interstellar Turbulence and Cosmic-Ray Transport. The Astrophysical Journal, 2006, Volume 642, Issue 2, pp. 902-916.
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CRE-THEOR-STEPHENS-2001-ASR. S.A. Stephens. Origin of cosmic ray electrons. Adv. Space Res. 2001, V.27, No.4, pp. 687-692.
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CRE-THEOR-SVESHNIKOVA2010A Л.Г. Свешникова, В.С. Птускин, О.Н. Стрельникова. Анализ возможности описания амплитуды и фазы анизотропии протонов и спектров электронов космического излучения в области энергий около 1 ТэВ в рамках одного набора близких источников. 31-я ВККЛ, Москва, МГУ, 2010 ПКЛ/PCR_5 (на диске)
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CRE-THEOR-SVESHNIKOVA2010B Л.Г. Свешникова, В.С. Птускин, О.Н. Стрельникова. Влияние близких источников на спектры электронов и позитронов. 31-я ВККЛ, Москва, МГУ, 2010 ПКЛ/PCR_41 (на диске)
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CRE-THEOR-SYROVATSKII1959. Syrovatskii, S. I.. The Distribution of Relativistic Electrons in the Galaxy and the Spectrum of Synchrotron Radio Emission. Soviet Astronomy, 1959, Vol. 3, p.22
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CRE-THEOR-YiZhongFan2010. Yi-Zhong Fan, Bing Zhang, Jin Chang $e^\pm$ Excesses in the Cosmic Ray Spectrum and Possible Interpretations. [Обзор, 350 ссылок] arXiv:1008.4646v1 [astro-ph.HE]
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CRE-THEOR-ZHANG2001. L. Zhang, K. S. Cheng. Cosmic-ray positrons from mature gamma-ray pulsars. Astronomy and Astrophysics, v.368, p.1063-1070 (2001)
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ШАЛ

CREAS-AKENO1984. M. Nagano, T. Hara, Y. Hatano, N. Hayashida, S. Kawaguchi, K. Kamata, T. Kifune and Y. Mizumoto Energy spectrum of primary cosmic rays between $10^{14.5}$ and $10^{18}$ eV.
J. Phys. G: Nucl. Phys. V.10, 1984, P.1295-1310.
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CREAS-ARGO-YBJ2014. G. Di Sciascio, for the ARGO-YBJ Collaboration (INFN, Sezione Roma Tor Vergata). Measurement of the Cosmic Ray Energy Spectrum with ARGO-YBJ.
arXiv:1710.00890 [astro-ph.HE].
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CREAS-ARGO-YBJ2017. Paolo Montini, for the ARGO-YBJ collaboration. The Cosmic Ray spectrum in the energy region between $10^{12}$ and $10^{16}$ eV measured by {ARGO-YBJ}.
EPJ Web of Conferences V.136, 02007 (2017) RICAP16.
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CREAS-CASA-BLANCA2001. J.W. Fowler, L.F Forston, C.C.H. Jui, D.B. Kieda, R.A. Ong, C.L. Ptyke, P. Sommers A measurement of the cosmic ray spectrum and composition at the knee.
Astroparticle Physics, V. 15, 2001, P. 49-64.
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CREAS-CASA-MIA1999. M.A.K. Glasmacher, M.A. Catanese, M.C. Chantell, C.E. Covault, J.W. Cronin, B.E. Fick, L.F. Fortson, J.W. Fowler, K.D. Green, D.B. Kieda, J. Matthews, B.J. Newport, D.F. Nitz, R.A. Ong, S. Oser, D. Sinclair, J.C. van der Velde The cosmic ray energy spectrum between $10^{14}$ and $10^{16}$ eV.
ABSTRACT: The energy spectrum of cosmic rays with primary energies between 10^14 eV and 10^16 eV has been studied with the CASA-MIA air shower array. The measured differential energy spectrum is a power law (dj/dE ~E^-gamma) with spectral indices gamma of 2.66+/-0.02 below approximately 10^15 eV and 3.00+/-0.05 above. A new method is used for measuring primary energy derived from ground-based data in a compositionally insensitive way. In contrast with some previous reports, the ``knee'' of the energy spectrum does not appear sharp, but rather a smooth transition over energies from 10^15 eV to 3.0 x10^15 eV
Astroparticle Physics, V. 10, 1999, Issue 4, P. 291-302.
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CREAS-DICE-CASA-MIA2000. S.P. Swordy, D.B. Kieda Elemental composition of cosmic rays near the knee by multiparameter measurements of air showers.
Astroparticle Physics, V. 13, 2000, P. 137-150.
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CREAS-GAMMA2010. Romen Martirosov, Aleksander Garyaka, Samvel Ter-Antonyan, Anatoly Erlykin, Natalya Nikolskaya, Yves Gallant, Lawrence Jones, Jacques Procureur, Hovhannes Babayan Results from the GAMMA experiment on Mt. Aragats.
arXiv:1010.6260 [astro-ph.HE].
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CREAS-HAWC2017. HAWC Collaboration: R. Alfaro (1) C. Alvarez (2), R. Arceo (2), Energy spectrum of primary cosmic rays between $10^{14.5}$ and $10^{18}$ eV.
arXiv:1710.00890 [astro-ph.HE].
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CREAS-HEGRA2000. F. Arqueros, J.A. Barrio, K. Bernlöhr, H. Bojahr, I. Calle, J.L. Contreras, J. Cortina, T. Deckers, S. Denninghoff, V. Fonseca, J. Gebauer, J.C. González, V. Haustein, G. Heinzelmann, H. Hohl, D. Horns, A. Ibarra, M. Kestel, O. Kirstein, H. Kornmayer, D. Kranich, H. Krawczynski, A. Lindner, E. Lorenz, N. Magnussen, H. Meyer, R. Mirzoyan, A. Moralejo, L. Padilla, D. Petry, R. Plaga, J. Prahl, G. Rauterberg, W. Rhode, A. Röhring, M. Samorski, D. Schmele, F. Schröder, W. Stamm, B. Wiebel-Sooth, M. Willmer, W. Wittek Energy spectrum and chemical composition of cosmic rays between 0.3 and 10 PeV determined from the cherenkov-light and charged-particle distributions in air showers. Astronomy and Astrophysics, v.359, p.682-694 (2000) (arXiv:astro-ph/9908202).
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CREAS-KASCADE2003. M. Roth, H. Ulrich, T. Antoni, W.D. Apel, F. Badea, K. Bekk, A. Bercuci, H. Blümer, H. Bozdog, I.M. Brancus, C. Büttner, A. Chilingarian, K. Daumiller, P. Doll, R. Engel, J. Engler, F. Feßler, H.J. Gils, R. Glasstetter, A. Haungs, D. Heck, J.R. Hörandel, A. Iwan, K.H. Kampert, H.O. Klages, G. Maier, H.J. Mathes, H.J. Mayer, J. Milke, M. Müller, R. Obenland, J. Oehlschläger, S. Ostapchenko, M. Petcu, H. Rebel, M. Risse, G. Schatz, H. Schieler, J. Scholz, T. Thouw, J. vanBuren, A. Vardanyan, A. Weindl, J. Wochele, J. Zabierowski Energy Spectrum and Elemental Composition in the PeV Region. 28th International Cosmic Ray Conference. 2003. Trukuba V.1, P.139-142.
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CREAS-KASCADE2005. T. Antoni, W.D. Apel, A.F. Badea, K. Bekk, A. Bercuci, J. Blümer, H. Bozdog, I.M. Brancus, A. Chilingarian, K. Daumiller, P. Doll, R. Engel, J. Engler, F. Feßler, H.J. Gils, R. Glasstetter, A. Haungs, D. Heck, J.R. Hörandel, K.-H. Kampert, H.O. Klages, G. Maier, H.J. Mathes, H.J. Mayer, J. Milke, M. Müller, R. Obenland, J. Oehlschläger, S. Ostapchenko, M. Petcu, H. Rebel, A. Risse, M. Risse, M. Roth, G. Schatz, H. Schieler, J. Scholz, T. Thouw, H. Ulrich, J. vanBuren, A. Vardanyan, A. Weindl, J. Wochele, J. Zabierowski. KASCADE measurements of energy spectra for elemental groups of cosmic rays: Results and open problems. Astropart.Phys.24:1-25,2005 (arXiv:astro-ph/0505413v1).
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CREAS-KASCADE-GRANDE2011. W.D. Apel, J.C. Arteaga-Velazquez, K. Bekk, M. Bertaina, J. Bluemer, H. Bozdog, I.M. Brancus, P. Buchholz, E. Cantoni3, A. Chiavassa, F. Cossavella, K. Daumiller, V. de Souza, F. Di Pierro, P. Doll, R. Engel, J. Engler, M. Finger, D. Fuhrmann, P.L. Ghia, H.J. Gils, R. Glasstetter, C. Grupen, A. Haungs, D. Heck, J.R. Hoerandel, D. Huber, T. Huege, P.G. Isar, K.-H. Kampert, D. Kang, H.O. Klages, K. Link, P. Luczak, M. Ludwig, H.J. Mathes, H.J. Mayer, M. Melissas, J. Milke, B. Mitrica, C. Morello, G. Navarra, J. Oehlschlaeger, S. Ostapchenko, S. Over, N. Palmieri, M. Petcu, T. Pierog, H. Rebel, M. Roth, H. Schieler, F.G. Schroeder, O. Sima, G. Toma, G.C. Trinchero, H. Ulrich, A. Weindl, J. Wochele, M. Wommer, J. Zabierowski. Kneelike structure in the spectrum of the heavy component of cosmic rays observed with KASCADE-Grande. arXiv:1107.5885 [astro-ph.HE].
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CREAS-KASCADE-GRANDE2012. W. D. Apel, J. C. Arteaga-Velazquez, K. Bekk, M. Bertaina, J. Bluemer, H. Bozdog, I. M. Brancus, P. Buchholz, E. Cantoni, A. Chiavassa, F. Cossavella, K. Daumiller, V. de Souza, F. Di Pierro, P. Doll, R. Engel, J. Engler, M. Finger, D. Fuhrmann, P. L. Ghia, H. J. Gils, R. Glasstetter, C. Grupen, A. Haungs, D. Heck, J. R. Hoerandel, D. Huber, T. Huege, K.-H. Kampert, D. Kang, D. Kickelbick, H. O. Klages, K. Link, P. Luczak, M. Ludwig, H. J. Mathes, H. J. Mayer, M. Melissas, J. Milke, B. Mitrica, C. Morello, G. Navarra, J. Oehlschlaeger, S. Ostapchenko, S. Over, N. Palmieri, M. Petcu, T. Pierog, H. Rebel, M. Roth, H. Schieler, F.G. Schroeder, O. Sima, G. Toma, G. C. Trinchero, H. Ulrich, A. Weindl, J. Wochele, M. Wommer, J. Zabierowski The spectrum of high-energy cosmic rays measured with KASCADE-Grande. Astroparticle Physics Volume 36, Issue 1, August 2012, Pages 183–194 (arXiv:1206.3834 [astro-ph.HE]).
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CREAS-MSU-EAS1991. Yu.A. Fomin, et al. Energy Spectrum of Cosmic Rays at Energies of 5 x 10^{15} - 5 x 10^{17} eV. 22nd International Cosmic Ray Conference, 1991, V.~2, p.85.
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CREAS-TIBET1996-ApJ. M. Amenomori, Z. Cao, B.Z. Dai, L.K. Ding, Y.X. Feng, Z.Y. Feng, K. Hibino, N. Hotta, Q. Huang, A.X. Huo, H.Y. Jia, G.Z. Jiang, S.Q. Jiao, F. Kajino, K. Kasahara, Labaciren, S.M. Liu, D.M. Mei, L. Meng, X.R. Meng, Mimaciren, K. Mizutani, J. Mu, H. Nanjo, M. Nishizawa, M. Ohnishi, I. Ohta, T. Ouchi, J.R. Ren, To. Saito, M. Sakata, Z.Z. Shi, M. Shibata, A. Shiomi, T. Shirai, H. Sugimoto, X.X. Sun, K. Taira, Y.H. Tan, N. Tateyama, S. Torii, H. Wang, C.Z. Wen, Y. Yamamoto, G.C. Yu, P. Yuan, T. Yuda, C.S. Zhang, H.M. Zhang, L. Zhang, Zhasang, Zhaxiciren, W.D. Zhou The Cosmic-Ray Energy Spectrum between 10 14.5 and 10 16.3 eV Covering the ``Knee'' Region. Astrophysical Journal v.461, p.408.
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CREAS-TIBET2003All. M. Amenomori, S. Ayabe, S.W. Cui, Danzengluobu, L.K. Ding, X.H. Ding, C.F. Feng, Z.Y. Feng, X.Y. Gao, Q.X. Geng, H.W. Guo, H.H. He, M. He, K. Hibino, N. Hotta, H. Hu, H.B. Hu, J. Huang, Q. Huang, H.Y. Jia, F. Kajino, K. Kashara, Y. Katayose, H. Kawamura, K. Kawata, Labaciren, G.M. Le, J.Y. Li, H. Lu, S.L. Lu, X.R. Meng, K. Mizutani, J. Mu, H. Nanjo, M. Nishizawa, M. Ohnishi, I. Ohta, T. Ouchi, S. Ozawa, J.R. Ren, T. Saito, M. Sakata, T. Sasaki, M. Shibata, A. Shiomi, T. Shirai, H. Sugimoto, K. Taira, M. Takita, Y.H. Tan, J. Tanaka, N. Tateyama, S. Torii, Y. Yamamoto, X.C. Yang, Z.H. Ye, G.C. Yu, A.F. Yuan, T. Yuda, H.M. Zhang, J.L. Zhang, N.J. Zhang, X.Y. Zhang, Y. Zhang, Zhaxisangzhu, X.X. Zhou The Energy Spectrum of All-Particle Cosmic Rays around the Knee Region Observed with the Tibet Air-Shower Array. 28th International Cosmic Ray Conference. 2003. V.1 P.143-146.
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CREAS-TIBET2003P. M. Amenomori, S. Ayabe, S.W. Cui, Danzengluobu, L.K. Ding, X.H. Ding, C.F. Feng, Z.Y. Feng, X.Y. Gao, Q.X. Geng, H.W. Guo, H.H. He, M. He, K. Hibino, N. Hotta, H. Hu, H.B. Hu, J. Huang, Q. Huang, H.Y. Jia, F. Kajino, K. Kashara, Y. Katayose, H. Kawamura, K. Kawata, Labaciren, G.M. Le, J.Y. Li, H. Lu, S.L. Lu, X.R. Meng, K. Mizutani, J. Mu, H. Nanjo, M. Nishizawa, M. Ohnishi, I. Ohta, T. Ouchi, S. Ozawa, J.R. Ren, T. Saito, M. Sakata, T. Sasaki, M. Shibata, A. Shiomi, T. Shirai, H. Sugimoto, K. Taira, M. Takita, Y.H. Tan, J. Tanaka, N. Tateyama, S. Torii, Y. Yamamoto, X.C. Yang, Z.H. Ye, G.C. Yu, A.F. Yuan, T. Yuda, H.M. Zhang, J.L. Zhang, N.J. Zhang, X.Y. Zhang, Y. Zhang, Zhaxisangzhu, X.X. Zhou Primary Proton Spectrum in the Knee Region Observed by the Tibet Hybrid Experiment. 28th International Cosmic Ray Conference. 2003. V.1 P.107-110.
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CREAS-TIBET2008. M. Amenomori, X.J. Bi, D. Chen, S.W. Cui, Danzengluobu, L.K. Ding, X.H. Ding, C. Fan, C.F. Feng, Zhaoyang Feng, Z.Y. Feng, X.Y. Gao, Q.X. Geng, H.W. Guo, H.H. He, M. He, K. Hibino, N. Hotta, Haibing Hu, H.B. Hu, J. Huang, Q. Huang, H.Y. Jia, F. Kajino, K. Kasahara, Y. Katayose, C. Kato, K. Kawata, Labaciren, G.M. Le, A.F. Li, J.Y. Li, Y.-Q. Lou, H. Lu, S.L. Lu, X.R. Meng, K. Mizutani, J. Mu, K. Munakata, A. Nagai, H. Nanjo, M. Nishizawa, M. Ohnishi, I. Ohta, H. Onuma, T. Ouchi, S. Ozawa, J.R. Ren, T. Saito, T.Y. Saito, M. Sakata, T.K. Sako, M. Shibata, A. Shiomi, T. Shirai, H. Sugimoto, M. Takita, Y.H. Tan, N. Tateyama, S. Torii, H. Tsuchiya, S. Udo, B. Wang, H. Wang, X. Wang, Y. Wang, Y.G. Wang, H.R. Wu, L. Xue, Y. Yamamoto, C.T. Yan, X.C. Yang, S. Yasue, Z.H. Ye, G.C. Yu, A.F. Yuan, T. Yuda, H.M. Zhang, J.L. Zhang, N.J. Zhang, X.Y. Zhang, Y. Zhang, Yi. Zhang, Zhaxisangzhu, X.X Zhou The All-Particle Spectrum of Primary Cosmic Rays in the Wide Energy Range from $10^{14}$ to $10^{17}$ eV Observed with the Tibet-III Air-Shower Array The Astrophysical Journal, Volume 678, Issue 2, P. 1165-1179. (arXiv:0801.1803).
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CREAS-TUNKA13-2005. O.A. Gress, et al. The First Results of TUNKA-13 EAS Cherenkov Light Experiment.
25th International Cosmic Ray Conference, 1997, Vol. 4, p.129
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CREAS-TUNKA2005. D.V. Chernov, E.E. Korosteleva, L.A. Kuzmichev, V.V. Prosin, I.V. Yashin, N.M. Budnev, O.A. Gress, T.I. Gress, L.V. Pankov, Yu.V. Parfenov, Yu.A. Semeney, B.K. Lubsandorzhiev, P.G. Pokhil, T. Schmidt, Ch. Spiering, R. Wischnewski Primary Energy Spectrum and Mass Composition Determined with the Tunka EAS Cherenkov Array.
Int. J. of Modern Physics A, V. 20, Issue 29, P. 6799-6801 (2005). (arXiv:astro-ph/0411139v1)
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CREAS-TUNKA2007. E.E Korosteleva, V.V. Prosin, L.A. Kuzmichev, G. Navarra. Measurement of Cosmic Ray Primary Energy with the Atmospheric Cherenkov Light Technique in Extensive Air Showers.
Nucl. Phys. B Proc. Suppl., 2007, V.~165, P.~74--80.
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CREAS-TUNKA2009. N. M. Budnev, O. A. Chvalaiev, O. A. Gress, N. N. Kalmykov, V. A. Kozhin, E. E. Korosteleva, L. A. Kuzmichev, B. K. Lubsandorzhiev, R. R. Mirgazov, G. Navarra, M. I. Panasyuk, L. V. Pankov, V. V. Prosin, V. S. Ptuskin, Yu. A. Semeney, B. A. Shaibonov-junior, A. A. Silaev, A. A. Silaev-junior, A. V. Skurikhin, C. Spiering, R. Wischnewski, I. V. Yashin, A. V. Zablotsky, A. V. Zagorodnikov The Cosmic Ray Mass Composition in the Energy Range $10^{15}$ - $10^{18}$ eV measured with the Tunka Array: Results and Perspectives.
arXiv:0902.3156v1 [astro-ph.HE]
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CREAS-TUNKA2011-MassComp. S.F. Berezhnev, D. Besson, N.M. Budnev, A. C Hiavassa, O.A. Chvalaev, O.A. Gress, A.N. Dyachok, S.N. Epimakhov, N.I. Karpov, N.N. Kalmykov, E.N. Konstantinov, A.V. Korobchenko, E.E. Korosteleva, V.A. Kozhin, L.A. Kuzmichev, B.K. Lubsandorzhiev, N.B. Lubsandorzhiev, R.R. Mirgazov, M.I. Panasyuk, L.V. Pankov, E.G. Popova, V.V. Prosin, V.S. Ptuskin, Yu. A. Semeney, B.A. Shaibonov (Junior), A.A. Silaev, A.A. Silaev (Junior), A.V. Skurikhin, J. S. Nyder, C. Spiering, M. Stockham, L.G. Sveshnikova, R. Wischnewski, I.V. Yashin, A.V. Zagorodnikov. Tunka-133: Primary Cosmic Ray Mass Composition in the Energy Range $6 \cdot 10^{15} - 10^{18}$~eV.
Proceedings of the 32nd International Cosmic Ray Conference Aug. 11-18, 2011 Beijing, China, V.1 p.207-210
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CREAS-TUNKA2011-ESpectrum. S.F. Berezhnev, D. Besson, N.M. Budnev, A. C Hiavassa, O.A. Chvalaev, O.A. Gress, A.N. Dyachok, S.N. Epimakhov, N.I. Karpov, N.N. Kalmykov, E.N. Konstantinov, A.V. Korobchenko, E.E. Korosteleva, V.A. Kozhin, L.A. Kuzmichev, B.K. Lubsandorzhiev, N.B. Lubsandorzhiev, R.R. Mirgazov, M.I. Panasyuk, L.V. Pankov, E.G. Popova, V.V. Prosin, V.S. Ptuskin, Yu. A. Semeney, B.A. Shaibonov (Junior), A.A. Silaev, A.A. Silaev (Junior), A.V. Skurikhin, J. S. Nyder, C. Spiering, M. Stockham, L.G. Sveshnikova, R. Wischnewski, I.V. Yashin, A.V. Zagorodnikov. Tunka-133: Primary Cosmic Ray Energy Spectrum in the energy range $6 \cdot 10^{15} - 10^{18}$~eV.
Proceedings of the 32nd International Cosmic Ray Conference Aug. 11-18, 2011 Beijing, China, V.1 p.219-222
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CREAS-TUNKA2013-Source. L.G. Sveshnikova, E.E. Korosteleva, L.A. Kuzmichev, V.S. Ptuskin, V.A. Prosin, O.N. Strelnikova. Nearby sources in the transition region between Galactic and Extragalactic cosmic rays.
arXiv:0902.3156v1 [astro-ph.HE]
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Электроны в космических лучах и темная материя

CREDM-ARKANI2008. Nima Arkani-Hamed, Douglas P. Finkbeiner, Tracy R. Slatyer, and Neal Weiner. A Theory of Dark Matter. arXiv:0810.0713v3 [hep-ph].
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CREDM-BALTZ1999. Edward A. Baltz, Joakim Edsj{\"o}. Positron propagation and ﬂuxes from neutralino annihilation in the halo. Phys. Rev. D., 1999, V. 59, 023511
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CREDM-BAE2009. Kyu Jung Bae, Bumseok Kyae. PAMELA/ATIC Anomaly from Exotic Mediated Dark Matter Decay. Journal of High Energy Physics, Issue 05, 2009, id. 102 (arXiv:0902.3578 [hep-ph]).
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CREDM-BLUMENTHAL1984. G. R. Blumenthal, S. M. Faber, J. R. Primack, M. J. Rees. Formation of galaxies and large-scale structure with cold dark matter.. Nature 311, 517–525 (1984)
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CREDM-BRUN2009. Pierre Brun. On the Dark Matter Solutions to the Cosmic Ray Lepton Puzzle. arXiv:0911.4779v1 [astro-ph.CO].
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CREDM-BRUN2009-PhysRev. Pierre Brun, Timur Delahaye, Jurg Diemand, Stefano Profumo, Pierre Salati Cosmic ray lepton puzzle in the light of cosmological N-body simulations. Phys Rev D V.80, 035023 (2009)
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CREDM-CHEN2008. Chuan-Ren Chen, Mihoko M. Nojiri, Fuminobu Takahashi, T. T. Yanagida. Decaying Hidden Gauge Boson and the PAMELA and ATIC/PPB-BETS Anomalies. Prog.Theor.Phys.122:553-559,2009 (arXiv:0811.3357 [astro-ph]).
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CREDM-CIRELLI2008. Marco Cirelli, Mario Kadastik, Martti Raidal, Alessandro Strumia. Model-independent implications of the e+, e-, anti-proton cosmic ray spectra on properties of Dark Matter. Nucl.Phys.B813:1-21,2009 (arXiv:0809.2409 [hep-ph]).
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CREDM-CIRELLI2012. Marco Cirelli, Emmanuel Moulin, Paolo Panci, Pasquale D. Serpico, Aion Viana. Gamma ray constraints on Decaying Dark Matter. arXiv:1205.5283v1 [astro-ph.CO].
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CREDM-CLINE2010. James M. Cline, Aaron C. Vincent, Wei Xue. Leptons from dark matter annihilation in Milky Way subhalos. Phys Rev D, V.81, 083512 (2010)
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CREDM-DIEMAND2008-Nature. J. Diemand, M. Kuhlen, P. Madau, M. Zemp, B. Moore, D. Potter, J. Stadel. Clumps and streams in the local dark matter distribution. Nature, Volume 454, Issue 7205, pp. 735-738 (2008).
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CREDM-GHIGHA1998. S. Ghigna, B. Moore, F. Governato, G. Lake, T. Quinn, J. Stadel. Dark matter haloes within clusters. Monthly Notices of the Royal Astronomical Society (MNRAS), Volume 300, Issue 1, pp. 146-162.
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CREDM-GRIEST1995. Kim Griest. The nature of the dark matter. arXiv:astro-ph/9510089v1.
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CREDM-HOOPER2009. Dan Hooper. TASI 2008 Lectures on Dark Matter. arXiv:0901.4090v1 [hep-ph].
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CREDM-IBARRA2009. Alejandro Ibarra, David Tran, Christoph Weniger. Decaying Dark Matter in Light of the PAMELA and Fermi LAT Data. Journal-ref: JCAP 1001:009,2010 (arXiv:0906.1571).
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CREDM-KLYPIN1999. A. Klypin, A. V. Kravtsov, O. Valenzuela, Octavio, F. Prada. Where Are the Missing Galactic Satellites? The Astrophysical Journal, Volume 522, Issue 1, pp. 82-92.
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CREDM-OLINTO2001. A.V Olinto, P. Blasi, C. Tyler. WIMPs Are Stronger When They Stick Together. Proceedings of the 27th International Cosmic Ray Conference. 07-15 August, 2001. Hamburg, Germany. Under the auspices of the International Union of Pure and Applied Physics (IUPAP)., p.1574-1577.
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CREDM-PEEBLES1982. Peebles, P. J. E.. Large-scale background temperature and mass fluctuations due to scale-invariant primeval perturbations. Astrophysical Journal, Part 2 - Letters to the Editor, vol. 263, Dec. 1, 1982, p. L1-L5.
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CREDM-TURNER1990. Michael S. Turner, Frank Wilczek. Positron line radiation as a signature of particle dark matter in the halo. Phys. Rev. D., 1990, V.42, No.4, p.1001-1007.
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CREDM-TURNER1991. Marc Kamionkowski, Michael S. Turner. Distinctive positron feature from particle dark-matter annihilation in the galactic halo. Phys. Rev. D., 1991, V.43, No.6, p.1774-1780.
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CREDM-TYLKA1989. Allan J. Tylka. Cosmic-Ray Positrons from Annihilation of Weakly Interacting Massive Particles in the Galaxy. Phys. Rev. Lett. 1989. V.63(8). p. 840-843.
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CREDM-XIAOGANG2009A. Xiao-Gang He. A Brief Review on Dark Matter Annihilation Explanation for $e^\pm$ Excesses in Cosmic Ray. Mod.Phys.Lett.A24:2139-2160,2009 (arXiv:0908.2908v1 [hep-ph]).
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CREDM-YIN2008. Peng-fei Yin, Qiang Yuan, Jia Liu, Juan Zhang, Xiao-jun Bi, Shou-hua Zhu, Xinmin Zhang. PAMELA data and leptonically decaying dark matter. Phys.Rev.D79:023512,2009 (arXiv:0811.0176 [hep-ph]).
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Ограничения на темную материю от гамма-спектроскопии и электроны в космических лучах

CREDM-GAMMA-FENG-2009. Jonathan L. Feng, Manoj Kaplinghat, Hai-Bo Yu. Halo Shape and Relic Density Exclusions of Sommerfeld-Enhanced Dark Matter Explanations of Cosmic Ray Excesses. Phys.Rev.Lett.104:151301,2010 (arXiv:0911.0422v3 [hep-ph]).
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CREDM-GAMMA-FERMI-WENIGER-2012. Christoph Weniger. Tentative observation of a gamma-ray line at the Fermi LAT. arXiv:1210.3013 [astro-ph.HE].
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CREDM-GAMMA-FINKBEINER-2010. Douglas P. Finkbeiner, Lisa Goodenough, Tracy R. Slatyer, Mark Vogelsberger, Neal Weiner. Consistent Scenarios for Cosmic-Ray Excesses from Sommerfeld-Enhanced Dark Matter Annihilation. JCAP 1105:002,2011 (arXiv:1011.3082 [hep-ph]).
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CREDM-GAMMA-HESS-2011. A. Abramowski, F. Acero, F. Aharonian, et al (H.E.S.S. Collaboration) Search for a Dark Matter annihilation signal from the Galactic Center halo with H.E.S.S. Phys.Rev.Lett.106:161301,2011 (arXiv:1103.3266v1).
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CREDM-GAMMA-ZAVALA-2011. Jesus Zavala, Mark Vogelsberger, Tracy R. Slatyer, Abraham Loeb, Volker Springel. The cosmic X-ray and gamma-ray background from dark matter annihilation. Phys.Rev.D83:123513, 2011 (arXiv:1103.0776 [astro-ph.CO])
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Гамма-астрономия и гамма-фон

CRGAMMA-AHARONIAN-1997-MNRAS. F.A. Aharonian, A.M. Atoyan, T. Kifune. Inverse Compton gamma radiation of faint synchrotron X-ray nebulae around pulsars. Monthly Notices of the Royal Astronomical Society, Volume 291, Issue 1, pp. 162-176.
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CRGAMMA-CANGAROO2002. R. Enomoto, T. Tanimori, T. Naito, T. Yoshida, S. Yanagita, M. Mori, P.G. Edwards, A. Asahara, G.V. Bicknell, S. Gunji, S. Hara, T. Hara, S. Hayashi, C. Itoh, S. Kabuki, F. Kajino, H. Katagiri, J. Kataoka, A. Kawachi, T. Kifune, H. Kubo, J. Kushida, S. Maeda, A. Maeshiro, Y. Matsubara, Y. Mizumoto, M. Moriya, H. Muraishi, Y. Muraki, T. Nakase, K. Nishijima, M. Ohishi, K. Okumura, J.R. Patterson, K. Sakurazawa, R. Suzuki, D.L. Swaby, K. Takano, T. Takano, F. Tokanai, K. Tsuchiya, H. Tsunoo, K. Uruma, A. Watanabe, T. Yoshikoshi. The acceleration of cosmic-ray protons in the supernova remnant RX J1713.7-3946. Nature, Volume 416, Issue 6883, pp. 823-826 (2002).
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CRGAMMA-FERMI-2010-LMC. Fermi/LAT collaboration, A. A. Abdo, M. Ackermann, M. Ajello, et al. Observations of the Large Magellanic Cloud with Fermi. arXiv:1001.3298v1 [astro-ph.HE]
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CRGAMMA-FERMI-2010-W77-Science. A.A. Abdo, M. Ackermann, M. Ajello, L. Baldini, J. Ballet, G. Barbiellini, M.G. Baring, D. Bastieri, B.M. Baughman, K. Bechtol, R. Bellazzini, B. Berenji, R.D. Blandford, E.D. Bloom, E. Bonamente, A.W. Borgland, J. Bregeon, A. Brez, M. Brigida, P. Bruel, T.H. Burnett, S. Buson, G.A. Caliandro, R.A. Cameron, P.A. Caraveo, J.M. Casandjian, C. Cecchi, Ö. Çelik, A. Chekhtman, C.C. Cheung, J. Chiang, S. Ciprini, R. Claus, I. Cognard, J. Cohen-Tanugi, L.R. Cominsky, J. Conrad, S. Cutini, C.D. Dermer, A. deAngelis, F. dePalma, S.W. Digel, E. doCoutoeSilva, P.S. Drell, R. Dubois, D. Dumora, C. Espinoza, C. Farnier, C. Favuzzi, S.J. Fegan, W.B. Focke, P. Fortin, M. Frailis, Y. Fukazawa, S. Funk, P. Fusco, F. Gargano, D. Gasparrini, N. Gehrels, S. Germani, G. Giavitto, B. Giebels, N. Giglietto, F. Giordano, T. Glanzman, G. Godfrey, I.A. Grenier, M.-H. Grondin, J.E. Grove, L. Guillemot, S. Guiriec, Y. Hanabata, A.K. Harding, M. Hayashida, E. Hays, R.E. Hughes, M.S. Jackson, G. Jóhannesson, A.S. Johnson, T.J. Johnson, W.N. Johnson, T. Kamae, H. Katagiri, J. Kataoka, J. Katsuta, N. Kawai, M. Kerr, J. Knödlseder, M.L. Kocian, M. Kramer, M. Kuss, J. Lande, L. Latronico, M. Lemoine-Goumard, F. Longo, F. Loparco, B. Lott, M.N. Lovellette, P. Lubrano, A.G. Lyne, G.M. Madejski, A. Makeev, M.N. Mazziotta, J.E. McEnery, C. Meurer, P.F. Michelson, W. Mitthumsiri, T. Mizuno, C. Monte, M.E. Monzani, A. Morselli, I.V. Moskalenko, S. Murgia, T. Nakamori, P.L. Nolan, J.P. Norris, A. Noutsos, E. Nuss, T. Ohsugi, N. Omodei, E. Orlando, J.F. Ormes, D. Paneque, D. Parent, V. Pelassa, M. Pepe, M. Pesce-Rollins, F. Piron, T.A. Porter, S. Rainò, R. Rando, M. Razzano, A. Reimer, O. Reimer, T. Reposeur, L.S. Rochester, A.Y. Rodriguez, R.W. Romani, M. Roth, F. Ryde, H.F.-W. Sadrozinski, D. Sanchez, A. Sander, P.M.Saz Parkinson, J.D. Scargle, C. Sgrò, E.J. Siskind, D.A. Smith, P.D. Smith, G. Spandre, P. Spinelli, B.W. Stappers, F.W. Stecker, M.S. Strickman, D.J. Suson, H. Tajima, H. Takahashi, T. Takahashi, T. Tanaka, J.B. Thayer, J.G. Thayer, G. Theureau, D.J. Thompson, L. Tibaldo, O. Tibolla, D.F. Torres, G. Tosti, A. Tramacere, Y. Uchiyama, T.L. Usher, V. Vasileiou, C. Venter, N. Vilchez, V. Vitale, A.P. Waite, P. Wang, B.L. Winer, K.S. Wood, R. Yamazaki, T. Ylinen, M. Ziegler. Gamma-Ray Emission from the Shell of Supernova Remnant W44 Revealed by the Fermi LAT. Science, Volume 327, Issue 5969, pp. 1103- (2010)
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CRGAMMA-FERMI2012-arXiv. Fermi-LAT Collaboration: M. Ackermann, M. Ajello, A. Albert, et al. Fermi LAT Search for Dark Matter in Gamma-ray Lines and the Inclusive Photon Spectrum. arXiv:1205.2739v1 [astro-ph.HE]
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CRGAMMA-HESS-2006-AA. F. Aharonian, A.G. Akhperjanian, A.R. Bazer-Bachi, M. Beilicke, W. Benbow, et al (HESS). First detection of a VHE gamma-ray spectral maximum from a cosmic source: HESS discovery of the Vela X nebula. Astronomy and Astrophysics, Volume 448, Issue 2, March III 2006, pp.L43-L47.
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CRGAMMA-HESS-2006-ApJ636. F. Aharonian, A.G. Akhperjanian, A.R. Bazer-Bachi, M. Beilicke, W. Benbow, et al (HESS). The H.E.S.S. Survey of the Inner Galaxy in Very High Energy Gamma Rays. The Astrophysical Journal, Volume 636, Issue 2, pp. 777-797.
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CRGAMMA-HESS-2006-RXJ1713. F. Aharonian, A.G. Akhperjanian, A.R. Bazer-Bachi, M. Beilicke, W. Benbow, D. Berge, K. Bernlöhr, C. Boisson, O. Bolz, V. Borrel, I. Braun, F. Breitling, A.M. Brown, P.M. Chadwick, L.-M. Chounet, R. Cornils, L. Costamante, B. Degrange, H.J. Dickinson, A. Djannati-Ataï, L. O'C.Drury, G. Dubus, D. Emmanoulopoulos, P. Espigat, F. Feinstein, G. Fontaine, Y. Fuchs, S. Funk, Y.A. Gallant, B. Giebels, J.F. Glicenstein, P. Goret, C. Hadjichristidis, D. Hauser, M. Hauser, G. Heinzelmann, G. Henri, G. Hermann, J.A. Hinton, W. Hofmann, M. Holleran, D. Horns, A. Jacholkowska, O.C. deJager, B. Khélifi, S. Klages, Nu. Komin, A. Konopelko, I.J. Latham, R. LeGallou, A. Lemière, M. Lemoine-Goumard, T. Lohse, J.M. Martin, O. Martineau-Huynh, A. Marcowith, C. Masterson, T.J.L. McComb, M. deNaurois, D. Nedbal, S.J. Nolan, A. Noutsos, K.J. Orford, J.L. Osborne, M. Ouchrif, M. Panter, G. Pelletier, S. Pita, G. Pühlhofer, M. Punch, B.C. Raubenheimer, M. Raue, S.M. Rayner, A. Reimer, O. Reimer, J. Ripken, L. Rob, L. Rolland, G. Rowell, V. Sahakian, L. Saugé, S. Schlenker, R. Schlickeiser, C. Schuster, U. Schwanke, M. Siewert, H. Sol, D. Spangler, R. Steenkamp, C. Stegmann, G. Superina, J.-P. Tavernet, R. Terrier, C.G. Théoret, M. Tluczykont, C. vanEldik, G. Vasileiadis, C. Venter, P. Vincent, H.J. Völk, S.J. Wagner A detailed spectral and morphological study of the gamma-ray supernova remnant RX J1713.7-3946 with HESS. Astronomy and Astrophysics, Volume 449, Issue 1, April I 2006, pp.223-242.
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CRGAMMA-HESS-2007-ApJ. F. Aharonian, A.G. Akhperjanian, A.R. Bazer-Bachi, M. Beilicke, W. Benbow, et al (HESS). H.E.S.S. Observations of the Supernova Remnant RX J0852.0-4622: Shell-Type Morphology and Spectrum of a Widely Extended Very High Energy Gamma-Ray Source. The Astrophysical Journal, Volume 661, Issue 1, pp. 236-249.
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CRGAMMA-HESS-2007-AA. Aharonian, F.; Akhperjanian, A. G.; Bazer-Bachi, A. R.; Beilicke, M.; Benbow, et al (HESS). Primary particle acceleration above 100 TeV in the shell-type supernova remnant RX J1713.7-3946 with deep HESS observations. Astronomy and Astrophysics, Volume 464, Issue 1, March II 2007, pp.235-243.
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CRGAMMA-KISTLER2009. Matthew D. Kistler, Hasan Yuksel. New Constraints on the Highest-Energy Cosmic-Ray Electrons and Positrons. arXiv:0912.0264v1 [astro-ph.HE].
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CRGAMMA-LEE2010. S.-H. Lee, T. Kamae, L. Baldini, F. Giordano, M.-H. Grondin, L. Latronico, M. Lemoine-Goumard, C. Sgró, T. Tanaka, Y. Uchiyama. Cosmic Ray e^+/(e^- + e^+) and pbar/p Ratios Explained by an Injection Model Based on Gamma-ray Observations [+хороший обзор происхождения позитронов]. arXiv:1010.3477v3 [astro-ph.HE].
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CRGAMMA-MALKOV2011. M.A. Malkov, P.H. Diamond, R.Z. Sagdeev. Mechanism for spectral break in cosmic ray proton spectrum of supernova remnant W44. Nature Communications, Volume 2, Issue , paper number 194 (2011) (arXiv:1004.4714)
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CRGAMMA-PETRE-2001-ASR. R. Petre, U. Hwang, G.E. Allen. Evidence for cosmic-ray acceleration in supernova remnants from X-ray observations. Adv. Space Res. 2001, V.27, No.4, pp. 647-652.
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CRGAMMA-WIEDENBECK1999-ApJL. M.E. Wiedenbeck, W.R. Binns, E.R. Christian, A.C. Cummings, B.L. Dougherty, P.L. Hink, J. Klarmann, R.A. Leske, M. Lijowski, R.A. Mewaldt, E.C. Stone, M.R. Thayer, T.T. vonRosenvinge, N.E. Yanasak. Constraints on the Time Delay between Nucleosynthesis and Cosmic-Ray Acceleration from Observations of $^{59}$Ni and $^{59}$Co. The Astrophysical Journal, Volume 523, Issue 1, pp. L61-L64.
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Эмульсионные прямые эксперименты в космических лучах

CREMULS-JACEE-1983-BURNETT. T. H. Burnett, S. Dake, M. Fuki, J. C. Gregory*, T. Hayashi, R. Holynski, R. W. Huggett, S. D. Hunter, J. Iwai, W. V. Jones, A. Jurak, J. J. Lord, O. Miyamura, H. Oda, T. Ogata, T. A. Parnell, T. Saito, T. Tabuki, Y. Takahashi, T. Tominaga, J. W. Watts, B. Wilczynska, R. J. Wilkes, W. Wolter, and B. Wosiek Photon and Helium Energy Spectra above 1 TeV for Primary Cosmic Rays. Phys. Rev. Lett. 51, 1010–1013 (1983)
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CREMULS-JACEE-1986-Nim. T.H. Burnett, S. Dake, M. Fuki, J.C. Gregory, T. Hayashi, R. Holynski, J. Iwai, W.V. Jones, A. Jurak, J.J. Lord, O. Miyamura, H. Oda, T. Ogata, T.A. Parnell, T. Saito, T. Tabuki, Y. Takahashi, T. Tominaga, J.W. Watts, B. Wilczynska, R.J. Wilkes, W. Wolter, B. Wosiek JACEE emulsion chambers for studying the energy spectra of high energy cosmic ray protons and helium. Nuc. Instr. Meth. A, V.~251, Issue 3, P.~583--595
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CREMULS-JACEE-1990-ApJ-Lett. T.H. Burnett, S. Dake, J.H. Derrickson, W.F. Fountain, M. Fuki, J.C. Gregory, T. Hayashi, R. Holynski, J. Iwai, W.V. Jones, A. Jurak, J.J. Lord, O. Miyamura, H. Oda, T. Ogata, T.A. Parnell, F.E. Roberts, S. Strausz, T. Tabuki, Y. Takahashi, T. Tominaga, J.W. Watts, J.P. Wefel, B. Wilczynska, H. Wilczynski, R.J. Wilkes, W. Wolter, B. Wosiek Energy spectra of cosmic rays above 1 TeV per nucleon. ApJ, 1990, V. 349, P. L25-L28.
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CREMULS-JACEE-1990-ICRC-101. H.T. Burnett, S. Dake, H.J. Derrickson, F.W. Fountain, M. Fuki, C.J. Gregory, T. Hayashi, R. Holynski, J. Iwai, V.W. Jones, A. Jurak, J.J. Lord, O. Miyamura, H. Oda, T. Ogata, A.T. Parnell, E.F. Roberts, T. Shibata, S. Strausz, T. Tabuki, Y. Takahashi, T. Tominaga, W.J. Watts, P.J. Wefel, B. Wilczynska, H. Wilczynski, J.R. Wilkes, W. Wolter, B. Wosiek Energy Spectra of Cosmic Rays Above 1 TeV per AMU by JACEE.
[см. также CREMULS-JACEE-1991-22ICRC-B, CREMULS-JACEE-1998-NuclPhysB (L/M)] 21st International Cosmic Ray Conference. Volume 3 (OG Sessions), p.101
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CREMULS-JACEE-1991-22ICRC-A. K. Asakimori, JACEE Collaboration Energy spectra of protons and helium nuclei above 5 TeV/nucleon. 22th International Cosmic Ray Conference, 1991, Vol. 2, p. 97 - 100
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CREMULS-JACEE-1991-22ICRC-B. K. Asakimori, JACEE Collaboration Energy spectra and composition of cosmic rays above 1 TeV per nucleon. 22th International Cosmic Ray Conference, 1991, Vol. 2, p. 57-60
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CREMULS-JACEE-1998-ApJ. K. Asakimori, T.H. Burnett, M.L. Cherry, K. Chevli, M.J. Christ, S. Dake, J.H. Derrickson, W.F. Fountain, M. Fuki, J.C. Gregory, T. Hayashi, R. Holynski, J. Iwai, A. Iyono, J. Johnson, M. Kobayashi, J. Lord, O. Miyamura, K.H. Moon, B.S. Nilsen, H. Oda, T. Ogata, E.D. Olson, T.A. Parnell, F.E. Roberts, K. Sengupta, T. Shiina, S.C. Strausz, T. Sugitate, Y. Takahashi, T. Tominaga, J.W. Watts, J.P. Wefel, B. Wilczynska, H. Wilczynski, R.J. Wilkes, W. Wolter, H. Yokomi, E. Zager Cosmic-Ray Proton and Helium Spectra: Results from the JACEE Experiment. Astrophysical Journal v.502, p.278-283
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CREMULS-JACEE-1998-NuclPhysB. Y. Takahashi (for the JACEE Collaboration) Elemental Abundance of High Energy Cosmic Rays Nuc. Phys. B Proc. Suppl., V. 60, Issue 3, P. 83-92.
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CREMULS-MGU-1973-ICRC. T.P. Amineva, I.P. Ivanenko, M.A. Ivanova, K.V. Mandritskaya, E.A. Murzina, S.I. Nikolsky, E.A. Osipova, I.V. Rakobolskaya, N.V. Sokolskaya, N.I. Tulinova, A.Y. Varkovitskaya, E.A. Zamchalova, G.T. Zatsepin High-Energy Muon Generation in Cosmic Rays [Это не баллон! Это наземный мюнный детектор, предшественник всех баллоных экспериментов]. Proceedings of the 13th International Conference on Cosmic Rays, 1973, V. 3, p.1788
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CREMULS-MGU-1975-ICRC. T.P. Amineva, I.P. Ivanenko, M.A. Ivanova, K.V. Mandritdskaya, E.A. Osipova, I.V. Rakobolskaya, N.V. Sokolskaya, A.Ya. Varkovitskaya, E.A. Zamchalova, G.T. Zatsepin, V.I. Zatsepin High-Energy Nucleon and Pion Spectra in Cosmic Rays at a Depth of 60 g/cm^2. 14th International Cosmic Ray Conference, 1975. V. 7 (HE Session)., p.2501-2506
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CREMULS-MGU-1977-ICRC-1. M.A. Ivanova, K.V. Mandritskaya, I.V. Rakobolskaya, N.V. Sokolskaya, A.Ya. Varkovitskaya, E.A. Zamchalova, G.T. Zatsepin, V.I. Zatsepin The Energy Spectrum of Gamma-Quanta and Hadrons at a 60 G/cm2 Depth in the Stratosphere (Abstract) 15th International Cosmic Ray Conference, 1977, Vol. 7. p.465
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CREMULS-MGU-1977-ICRC-2. T.P. Amineva, M.A. Ivanova, K.V. Mandritskaya, E.A. Osipova, I.V. Rakobolskaya, N.V. Sokolskaya, N.I. Tulinova, A.Y. Varkovitskaya, L. Kuzmichev, V.I. Zatsepin, G.T. Zatsepin Study of the Energy Spectra of the Cosmic Ray Muons, γ-Quanta and Hadrons in the 2 TeV Range 15th International Cosmic Ray Conference, 1977, Vol. 11. p.358-361
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CREMULS-MUBEE-1977-ICRC-1. V.V. Abulova, S.B. Ignatyev, M.A. Ivanova, K.V. Mandritskaya, I.V. Rakobolskaya, G.P. Sazhina, N.V. Sokolskaya, N.I. Tulinova, A.Ya. Varkovitskaya, E.A. Zamchalova, G.T. Zatsepin, V.I. Zatsepin The Hadron Energy Spectrum at a 10 G/cm^2 Depth in the Stratosphere (Abstract). 15th International Cosmic Ray Conference, 1977, V. 1. p.291
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CREMULS-MUBEE-1977-ICRC-2. M.D. Dezhurko, S.B. Ignatiev, K.V. Mandritskaya, V.V. Abulova, I.V. Rakobolskaya, N.V. Sokolskaya, A.Ta. Varkovitskaya, G.P. Sazhina, E.A. Zamchalova, M.A. Ivanova, V.I. Zatsepin The Method of X-Ray Emulsion Chamber as Applied to Determination of the Chemical Composition of Primary Cosmic Rays in the Energy range of 10 - 100 TeV per Nucleus. 15th International Cosmic Ray Conference, 1977, Vol. 11. p.72-76
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CREMULS-MUBEE-1981-ICRC. L.A. Kuzmichev, K.V. Mandritskaia, E.A. Osipova, I.V. Rakobolskaia, N.V. Sokolskaia, A.S. Sudov, N.I. Tulinova, A. Varkovitskaia, V.I. Zatsepin Hadron energy spectrum restored from measurements of electron-photon cascades in X-ray emulsion chambers exposed onboard balloons. 17th International Cosmic Ray Conference, 1981, V. 2. p. 103-106
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CREMULS-MUBEE-1981-ICRC-Charge. M.D. Dezhurko, I.V. Rakobolskaya, G.P. Sazhina, V.I. Zatsepin. Measurement of Charges of Relativistic Nuclei in Thin Nuclear Emulsions by Photometry Method. 17th International Cosmic Ray Conference, 1981, V.~9., P.~315-318.
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CREMULS-MUBEE-1983-ICRC. V.G. Abulova, L.A. Hein, K.V. Mandritskaya, G.P. Sazhina, N.V. Sokolskaya, E.S. Troshina, A.Y. Varkovitskaya, E.A. Zamchalova, V.I. Zatsepin Energy Spectra of Cascades Produced by Primary Cosmic Rays in Emulsion Chambers Exposed in the Stratosphere. 18th International Cosmic Ray Conference, 1983. V. 9, p.179-182
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CREMULS-MUBEE-1985-ICRC. K.V. Mandritskaya, G.P. Sazhina, N.V. Sokolskaya, A.Y. Varkovitskaya, E.A. Zamchalova, V.I. Zatsepin. Energy spectra of proton and nuclei of primary cosmic rays in energy region 10 TeV/particle. 19th Intern. Cosmic Ray Conf., V. 6 p 228-231
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CREMULS-MUBEE-1987-ICRC. B.L. Kanevsky, G.P. Sazhina, N.V. Sokolskaya, A.Ya. Varkovitskaya, E.A. Zamchalova, V. Zatsepin. Energy Spectra of Protons and Nuclei of Primary Cosmic Rays in the Energy Region 10 TeV/particle. Proceedings of the 20th International Cosmic Ray Conference Moscow, 1987, V. 1, p.371-374
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CREMULS-MUBEE-1990-ICRC. I.V. Zatsepin, A.E. Zamchalova, Ya.A. Varkovitskaya, V.N. Sokolskaya, P.G. Sazhina, G.N. Ryabova, V.K. Mandritskaya. Energy Spectra of PCR Protons and Nuclei Obtained with X-Ray Emulsion Chambers Using Data of New Stratospheric Exposures and New Methods of Processing. Proceedings of the 21st International Cosmic Ray Conference. Volume 3 (OG Sessions), 1990, p.81
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CREMULS-MUBEE-1993-JetpLett. А.Я. Варковицкая, Е.А. Замчалова, В.И. Зацепин, Т.В. Лазарева, Г.П. Сажина, Н.В. Сокольская. Энергетические спектры первичных протонов и других ядер в области энергий 10-100 ТэВ/частицу. Письма в ЖЭТФ, Т.57, вып.8. С.451-454.
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CREMULS-MUBEE-1994-YadFiz. В.И. Зацепин, Т.В. Лазарева, Г.П. Сажина, Н.В. Сокольская. Энергетические спектры и состав первичных космических лучей в области энергий выше 10 ТэВ на частицу. ЯФ, 1994, Т. 57, No4, С.684-689
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CREMULS-RUNJOB-2001-AstroPart. A.V. Apanasenko, V.A. Sukhadolskaya, V.A. Derbina, M. Fujii, V.I. Galkine, G.G. Getsov, M. Hareyama, M. Ichimura, S. Ito, E. Kamioka, T. Kitami, T. Kobayashi, V.D. Kolesnikov, V. Kopenkin, N.M. Kotunova, S. Kuramata, Y. Kuriyama, V.I. Lapshin, A.K. Managadze, H. Matsutani, H. Mikami, N.P. Misnikova, R.A. Mukhamedshin, M. Namiki, H. Nanjo, S.N. Nazarov, S.I. Nikolsky, T. Ohe, S. Ohta, V.I. Osedlo, D.S. Oshuev, D.M. Podorozhny, P.A. Publichenko, I.V. Rakobolskaya, T.M. Roganova, M. Saito, G.P. Sazhina, H. Semba, Y.N. Shabanova, T. Shibata, H. Sugimoto, L.G. Sveshnikova, K. Takahashi, T. Tsuchiya, V.M. Taran, N. Yajima, T. Yamagami, K. Yamamoto, I.V. Yashin, E.A. Zamchalova, G.T. Zatsepin, I.S. Zayarnaya Composition and energy spectra of cosmic-ray primaries in the energy range $10^{13}--{10}^15$ eV/particle observed by Japanese–Russian joint balloon experiment Astroparticle Physics, V.16, Issue 1, P. 13-46.
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CREMULS-RUNJOB-2003-ICRC-AllPart. M. Furukawa, V.I. Galkin, M. Hareyama, Y. Hirakawa, M. Ichimura, N. Inoue, E. Kamioka, T. Kobayashi, V.V. Kopenkin, S. Kuramata, A.K. Managadze, H. Matsutani, N.P. Misnikova, R.A. Mukhamedshin, S. Nagasawa, R. Nakano, M. Namiki, H. Nanjo, S.N. Nazarov, S. Ohta, H. Ohtomo, D.S. Oshuev, P.A. Publichenko, I.V. Rakobolskaya, T.M. Roganova, G.P. Sazhina, H. Semba, T. Shibata, D. Shuto, H. Sugimoto, L.G. Sveshnikova, R. Tanaka, N. Yajima, T. Yamagami, I.V. Yashin, E.A. Zamchalva, G.T. Zatsepin, I.S. Zayarnaya All Particle Spectrum, Average Mass from RUNJOB Data 28th International Cosmic Ray Conference. 2003. p.1885-1888.
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CREMULS-RUNJOB-2003-ICRC-Heavy. M. Furukawa, V.I. Galkin, M. Hareyama, Y. Hirakawa, M. Ichimura, N. Inoue, E. Kamioka, T. Kobayashi, V.V. Kopenkin, S. Kuramata, A.K. Managadze, H. Matsutani, N.P. Misnikova, R.A. Mukhamedshin, S. Nagasawa, R. Nakano, M. Namiki, H. Nanjo, S.N. Nazarov, S. Ohta, H. Ohtomo, D.S. Oshuev, P.A. Publichenko, I.V. Rakobolskaya, T.M. Roganova, G.P. Sazhina, H. Semba, T. Shibata, D. Shuto, H. Sugimoto, L.G. Sveshnikova, R. Tanaka, N. Yajima, T. Yamagami, I.V. Yashin, E.A. Zamchalva, G.T. Zatsepin, I.S. Zayarnaya Primary Heavy Components Spectra and 2-ry/1-ry Ratio Observed by RUNJOB Collaboration 28th International Cosmic Ray Conference. 2003. p.1877-1880.
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CREMULS-RUNJOB-2003-ICRC-P-He. M. Furukawa, V.I. Galkin, M. Hareyama, Y. Hirakawa, M. Ichimura, N. Inoue, E. Kamioka, T. Kobayashi, V.V. Kopenkin, S. Kuramata, A.K. Managadze, H. Matsutani, N.P. Misnikova, R.A. Mukhamedshin, S. Nagasawa, R. Nakano, M. Namiki, H. Nanjo, S.N. Nazarov, S. Ohta, H. Ohtomo, D.S. Oshuev, P.A. Publichenko, I.V. Rakobolskaya, T.M. Roganova, G.P. Sazhina, H. Semba, T. Shibata, D. Shuto, H. Sugimoto, L.G. Sveshnikova, R. Tanaka, N. Yajima, T. Yamagami, I.V. Yashin, E.A. Zamchalva, G.T. Zatsepin, I.S. Zayarnaya Primary Proton and Helium Spectra Observed by RUNJOB Collaboration 28th International Cosmic Ray Conference. 2003. p.1837-1840.
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CREMULS-RUNJOB-2005-ICRC-AllPart. L.G. Sveshnikova, V.A. Derbina, V.I. Galkin, M. Hareyama, Y. Hirakawa, Y. Horiuchi, M. Ichimura, N. Inoue, E. Kamioka, T. Kobayashi, V.V. Kopenkin, S. Kuramata, A.K. Managadze, H. Matsutani, N.P. Misnikova, R.A. Mukhamedshin, S. Nagasawa, R. Nakano, M. Namiki, M. Nakazawa, H. Nanjo, S.N. Nazarov, S. Ohata, H. Ohtomo, V.I. Osedlo, D.S. Oshuev, P.A. Publichenko, I.V. Rakobolskaya, T.M. Roganova, C. Saito, G.P. Sazhina, H. Semba, T. Shibata, D. Shuto, H. Sugimoto, R. Suzuki, V.M. Taran, N. Yajima, T. Yamagami, I.V. Yashin, E.A. Zamchalova, G.T. Zatsepin, I.S. Zayarnaya All particle spectrum and average mass obtained by RUNJOB experiment. 29th International Cosmic Ray Conference. 2005, V. 3, p.49-52.
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CREMULS-RUNJOB-2005-ICRC-Heavy. M. Ichimura, V.A. Derbina, V.I. Galkin, M. Hareyama, Y. Hirakawa, Y. Horiuchi, M. Ichimura, N. Inoue, E. Kamioka, T. Kobayashi, V.V. Kopenkin, S. Kuramata, A.K. Managadze, H. Matsutani, N.P. Misnikova, R.A. Mukhamedshin, S. Nagasawa, R. Nakano, M. Namiki, M. Nakazawa, H. Nanjo, S.N. Nazarov, S. Ohata, H. Ohtomo, V.I. Osedlo, D.S. Oshuev, P.A. Publichenko, I.V. Rakobolskaya, T.M. Roganova, C. Saito, G.P. Sazhina, H. Semba, T. Shibata, D. Shuto, H. Sugimoto, R. Suzuki, L.G. Sveshnikova, V.M. Taran, N. Yajima, T. Yamagami, I.V. Yashin, E.A. Zamchalova, G.T. Zatsepin, I.S. Zayarnaya Heavy component spectra and secondary to primary ratios obtained by RUNJOB experiment. 29th International Cosmic Ray Conference. 2005, V. 3, p.21-24.
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CREMULS-RUNJOB-2005-ICRC-P-He. M. Hareyama, V.A. Derbina, V.I. Galkin, Y. Hirakawa, Y. Horiuchi, M. Ichimura, N. Inoue, E. Kamioka, T. Kobayashi, V.V. Kopenkin, S. Kuramata, A.K. Managadze, H. Matsutani, N.P. Misnikova, R.A. Mukhamedshin, S. Nagasawa, R. Nakano, M. Namiki, M. Nakazawa, H. Nanjo, S.N. Nazarov, S. Ohata, H. Ohtomo, V.I. Osedlo, D.S. Oshuev, P.A. Publichenko, I.V. Rakobolskaya, T.M. Roganova, C. Saito, G.P. Sazhina, H. Semba, T. Shibata, D. Shuto, H. Sugimoto, R. Suzuki, L.G. Sveshnikova, V.M. Taran, N. Yajima, T. Yamagami, I.V. Yashin, E.A. Zamchalova, G.T. Zatsepin, I.S. Zayarnaya Proton and Helium spectra obtained by RUNJOB experiment. 29th International Cosmic Ray Conference. 2005, V. 3, p.17-20.
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CREMULS-RUNJOB-2005-ApJ. M. Hareyama, V.A. Derbina, V.I. Galkin, Y. Hirakawa, Y. Horiuchi, M. Ichimura, N. Inoue, E. Kamioka, T. Kobayashi, V.V. Kopenkin, S. Kuramata, A.K. Managadze, H. Matsutani, N.P. Misnikova, R.A. Mukhamedshin, S. Nagasawa, R. Nakano, M. Namiki, M. Nakazawa, H. Nanjo, S.N. Nazarov, S. Ohata, H. Ohtomo, V.I. Osedlo, D.S. Oshuev, P.A. Publichenko, I.V. Rakobolskaya, T.M. Roganova, C. Saito, G.P. Sazhina, H. Semba, T. Shibata, D. Shuto, H. Sugimoto, R. Suzuki, L.G. Sveshnikova, V.M. Taran, N. Yajima, T. Yamagami, I.V. Yashin, E.A. Zamchalova, G.T. Zatsepin, I.S. Zayarnaya Cosmic-Ray Spectra and Composition in the Energy Range of 10-1000 TeV per Particle Obtained by the RUNJOB Experiment. The Astrophysical Journal, Volume 628, Issue 1, pp. L41-L44.
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CREMULS-RUNJOB-2007-Gamma. V.I. Galkin, V.A. Derbina, E.A. Zamchalova, G.T. Zatsepin, I.S. Zayarnaya, M. Ichimura, E. Kamioka, V.V. Kopenkin, S. Kuramata, A.K. Managadze, R.A. Mukhamedshin, H. Nanjo, S.N. Nazarov, D.S. Oshuev, P.A. Publichenko, I.V. Rakobolskaya, T.M. Roganova, G.P. Sazhina, H. Semba, H. Sugimoto, L.G. Sveshnikova, M. Hareyama, T. Shibata, I.V. Yashin High-energy gamma rays in the RUNJOB experiment. Bulletin of the Russian Academy of Sciences: Physics, vol. 71, issue 4, pp. 491-493.
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CREMULS-RUNJOB-2009-Kopenkin. V. Kopenkin, T. Sinzi Cosmic ray primary composition in the energy range 10–1000 TeV obtained by passive balloon-borne detector: Reanalysis of the RUNJOB experiment. Phys. Rev. D 79, 072011 (2009) [18 pages].
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CREMULS-SANRIKU-1989-PhysRevD. Yasuhiro Kawamura, Hideya Matsutani, Hirotada Nanjyo, Katsuya Teraoka, Kimio Toda, Masakatsu Ichimura, Keisuke Kirii, Tadashi Kobayashi, Yasuo Niihori, Toru Shibata, Kazuo Shibuta, Yasuko Yoshizumi ``Quasidirect'' observations of cosmic-ray primaries in the energy region $10^{12}-10^{14}$ eV. Physical Review D (Particles and Fields), 1989, Volume 40, Issue 3, 1 August 1989, pp.729-753
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CREMULS-SANRIKU-1990-ICRC. Y. Kawamura, H. Matsutani, H. Nanjyo, M. Saito, K. Teraoka, K. Toda, Z. Watanabe, M. Ichimura, E. Kamioka, K. Kirii, T. Kobayashi, T. Shibata, K. Shibuta, Y. Yoshizumi, H. Sugimoto, K. Nakazawa. Observations of Cosmic-Ray Primaries in the Energy Region $10^{12}$ -- $10^{14}$ eV/particle. 21st International Cosmic Ray Conference. 1990, V.~3 (OG Sessions), P.~89-92
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Экстрагалактические космические лучи

CREXTRA-BEREZINSKY2007A. R. Aloisio, V. Berezinsky, P. Blasi, A. Gazizov, S. Grigorieva, B. Hnatyk A dip in the UHECR spectrum and the transition from galactic to extragalactic cosmic rays. arXiv:astro-ph/0608219v2, Astropart.Phys. 27, 2007 P.76-91
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CREXTRA-BEREZINSKY2007B. V. Berezinsky Transition from galactic to extragalactic cosmic rays. arXiv:0710.2750v2 [astro-ph], Proceedings of the 30th International Cosmic Ray Conference (Mexico, 2009), V.6, P. 21-33
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Изотопы в космических лучах.

CRISOT-CRIS-1998-Construction. E. C. Stone, C. M. S. Cohen, W. R. Cook, et. al THE COSMIC-RAY ISOTOPE SPECTROMETER FOR THE ADVANCED COMPOSITION EXPLORER. Space Science Reviews 96: 285-356, 1998.
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CRISOT-CRIS-1999-ApJ-59Ni-59Co. W.R. Binns, M.E. Wiedenbeck, E.R. Christian et. al Constrains on the time delay between nucleosynthesis and cosmic-ray acceletation from observations of 59NI and 59Co. Apj, V.523 (1999), PL61-L64.
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CRISOT-CRIS-2001-ApJ-SecIsot. N.E. Yanasak, M.E. Wiedenbeck, R.A. Mewaldt et. al Measurement of the secondary radionuclides 10Be, 26Al, 36Cl, 54Mn, and 14C and implications for the Galactic cosmic-ray age. Apj, V.563 (2001), P768-792.
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CRISOT-CRIS-2001-Ne. W.R. Binns, M.E. Wiedenbeck, E.R. Christian et al. GCR Neon Isotopic Abundances: Comparison with Wolf-Rayet Star Models and Meteoritic Abundances. AIP Conference Proceedings, V.598 (2001), P.257.
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CRISOT-CRIS-2001-ICRS-Ar-Co. S.M. Neburg, W.R. Binns, E.R. Shristian et al. CRIS measurements of electron-capture-decay isotopes: 37Ar, 44Ti, 49V, 51Cr, 55Fe, and 57Co. 27th ICRC, 2001, V.5, P.1675-1678.
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CRISOT-CRIS-2001-ICRS-Ca. M.E. Wiedenbeck, J.S. George, W.R. Binns et al. The isotopic composition ofcosmic-ray calcium. 27th ICRC, 2001, V.5, P.1679-1682.
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CRISOT-CRIS-2003-Higdon-22Ne. J.C. Higdon, R.E. Lingenfelter. The Superbubble Origin of $^{22}$Ne in Cosmic Rays? The Astrophysical Journal, Volume 590, Issue 2, pp. 822-832.
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CRISOT-CRIS-2008-ICRS. M.E. Wiedenbeck, W.R. Binns, A.C. Cummings et al. Primary and secondary contributions to arriving abundances of cosmic-ray nuclides. 30th ICRC, 2008, V.2, P.149-152.
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CRISOT-CRIS-2008-ICRS. W.R. Binns, E.R. Christian, A.C. Cummings et al. First Measurements of the Isotopic Composition of the Ultra-heavy Galactic Cosmic Ray Nuclei 31Ga and 32Ge from the CRIS Experiment on ACE. 30th ICRC, 2008, V.6, P.29-31.
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CRISOT-CRIS-2013-ApJ-Spectra. K.A. Lave, M.E. Wiedenbeck, W.R. Binns et al. Galactic cosmic-ray energy spectra and composition during the 2009-2010 Solar minimum period. ApJ, V.770 (2013) 117(16pp).
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CRISOT-CRIS-2013-Zhao. L.-L. Zhao and G. Qin. An observation-based model of heavy nuclei: Measurements from CRIS onbouard ACE spacecraft. Journal of Geophysical Research: Pace Physics, V.118 (2013) P. 1837-1848.
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CRISOT-CRIS-2015-ICRS-60Fe. M.H. Israel, W.R. Binns, E.R Christian et al. Observation of 60Fe in the Calactic cosmic rays. PoS(IVRC2015)275, 2015.
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CRISOT-CRIS-2015-ICRS-Penetrating. M.E. Wiedenbeck, W.R. Binns, E.R Christian et al. Analysis of GCR Spectra and composition using penetrating particle data from the CRIS instrument on ACE. PoS(IVRC2015)340, 2015.
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CRISOT-CRIS-2016-60FeScience. W.R. Binns, M.H. Israel, E.R. Christian et al. Observation of the 60Fe nucleosynthesis-clock isotope in galactic cosmic rays. Science, V.352, Issue 6286 (2016), P.677-680.
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CRISOT-ISEE3-1993-Sc-Ni. R.A. Leske. The elemental and isotopic composition of Galactic cosmic-ray nuclei from scandium through nickel. ApJ, V. 405, no. 2 (1993), P. 567-583.
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CRISOT-ISEE3-1993-Ne-Mg. R.S. Selesnick, A.C. Cummings, J.R. Cummings, R.A. Leske, et al. Coronal Abundances of Neon and Magnesium Isotopes from Solar Energetic Particles. ApJ Lett., v.418 (1993), p.L45.
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CRISOT-ULISSES-1995-SCience. J.A. Simpson, J.D. Anglin, V. Bothmer et al. Cosmic ray and Solar particle investigations over the south polar regions of the Sun. Science, V.268(5213) (1995), P.1019.
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CRISOT-ULISSES-1997-ApJ. J.J. Connell, J.A. Simpson. Isotopic Abundances of Fe and Ni in Galactic Cosmic-Ray Sources. The Astrophysical Journal, Volume 475 (1997) pp. L61-L64.
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CRISOT-ULISSES-1997-ICRC. J. Connell, M.A. Du Vernois; J.A. Simpson. The Galactic Cosmic Ray 36Cl Clock: ULYSSES HET Results. 25th ICRC, 1997, Vol. 3, p.397-400.
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CRISOT-Voyager-1997ICRC. A. Lukasiak, F.B. McDonald and W.R. Webber. Study of elemental and isotopic composition of cosmic ray nuclei Ca, Ti, V, Cr, Mn and Fe. 25th ICRS, 1997, Vol. 3, p.357
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CRISOT-Voyager-1997ApJA. W.R. Webber, A. Lukasiak, and F.B. McDonald. Voyager measurement of the mass composition of cosmic-ray Ne, Mg, Si, and S nuclei. ApJ, V.476 (1997), P. 766-770
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CRISOT-Voyager-1997ApJB. A. Lukasiak, F.B. McDonald, and W.R. Webber. Voyager measurement of the mass composition of cosmic-ray Ca through Fe nuclei. ApJ, V.488 (1997), P. 454-461
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Космические лучи - магнитные спектрометры

CRMAGNET-AMS-EW2000. A.D. Erlykin, S.J. Fatemi, A.W. Wolfendale. Fine structure in the energy spectrum of cosmic ray protons at 50 GeV? Phys. Lett. B, 2000, V.482, P.~337-342. (arXiv:astro-ph/0004163v1)
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CRMAGNET-AMS2000-ProtonsA. J. Alcaraz, D. Alvisi, B. Alpat et al. (AMS Collaboration). Protons in near earth orbit. Phys. Lett. B. 2000, V.~472 P.~215--226.
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CRMAGNET-AMS2000-ProtonsB. J. Alcaraz, B. Alpat, G. Ambrosi, H. Anderhub, L. Ao, et al. (AMS Collaboration). Cosmic protons. Phys. Lett. B, V. 490, 2000, P. 27-35.
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CRMAGNET-AMS2000-HeB. J. Alcaraz, B. Alpat, G. Ambrosi, H. Anderhub, L. Ao, et al. (AMS Collaboration). Helium in near Earth orbit. Phys. Lett. B, V. 494, 2000, P. 193-202.
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CRMAGNET-AMS2002-PhysRep. M. Aguilara , J. Alcaraza , J. Allabyb, et al. (AMS Collaboration). The Alpha Magnetic Spectrometer (AMS) on the International Space Station: Part I -- results from the test flight on the space shuttle. Physics Reports 366 (2002) 331 - 405.
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CRMAGNET-BESS93-2002. J. Z. Wang, E. S. Seo, K. Anraku, M. Fujikawa, M. Imori, T. Maeno, N. Matsui, H. Matsunaga, M. Motoki, S. Orito, T. Saeki, T. Sanuki, I. Ueda, K. Yoshimura, Y. Makida, J. Suzuki, K. Tanaka, A. Yamamoto, T. Yoshida, T. Mitsui, H. Matsumoto, M. Nozaki, M. Sasaki, J. Mitchell, A. Moiseev, J. Ormes, R. Streitmatter, J. Nishimura, Y. Yajima, T. Yamagami Measurement of Cosmic-Ray Hydrogen and Helium and Their Isotopic Composition with the BESS Experiment. ApJ, 2002, V.~564 : P.~244--259.
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CRMAGNET-BESS98-2000. T. Sanuki, M. Motoki, H. Matsumoto, E. S. Seo, J. Z. Wang, K. Abe, K. Anraku, Y. Asaoka, M. Fujikawa, M. Imori, T. Maeno, Y. Makida, N. Matsui, H. Matsunaga, J. Mitchell, T. Mitsui, A. Moiseev, J. Nishimura, M. Nozaki, S. Orito, J. Ormes, T. Saeki, M. Sasaki, Y. Shikaze, T. Sonoda, R. Streitmatter, J. Suzuki, K. Tanaka, I. Ueda, N. Yajima, T. Yamagami, A. Yamamoto, T. Yoshida, K. Yoshimura. Precise Measurement of Cosmic-Ray Proton and Helium Spectra with the BESS Spectrometer. Astrophys.J. V.545, 2000, P.1135-1142 (arXiv:astro-ph/0002481v1).
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CRMAGNET-BESS2001-2003. K. Abe, T. Sanuki, K. Anraku, Y. Asaoka, H. Fuke, S. Haino, N. Ikeda, M. Imori, K. Izumi, T. Maeno, Y. Makida, S. Matsuda, N. Matsui, T. Matsukawa, H. Matsumoto, J.W. Mitchell, A.A. Moiseev, J. Nishimura, M. Nozaki, S. Orito, J.F. Ormes, M. Sasaki, E.S. Seo, Y. Shikaze, T. Sonoda, R.E. Streitmatter, J. Suzuki, K. Tanaka, K. Tanizaki, T. Yamagami, A. Yamamoto, Y. Yamamoto, K. Yamato, T. Yoshida, K. Yoshimura Measurements of proton, helium and muon spectra at small atmospheric depths with the BESS spectrometer. [Это разные глубины] Phys. Lett. B, V.~564, P.~8--20 ((arXiv:astro-ph/0304102).
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CRMAGNET-BESS-2004-NIM. S. Haino, K. Abe, K. Anrakua, et al. (BESS collaboration). Progress of the BESS Superconducting Spectrometer. Nuclear Instruments and Methods in Physics Research A 518 (2004) 167-171.
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CRMAGNET-BESS-2008-FractCharge. H. Fuke, Y. Tasaki, K. Abe, et al. (BESS collaboration). Search for fractionally charged particles in cosmic rays with the BESS spectrometer. Advances in Space Research 41 (2008) 2050–2055.
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CRMAGNET-BESS-2012-ECRS-Pres. Makoto Sasaki, John W. Mitchell. The BESS experimental astroparticle physics program. 22nd European Cosmic Ray Symposium, highlight presentation.
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CRMAGNET-BESS-MODULATION2008. J.W. Mitchell, K. Abe, H. Fuke, S. Haino, T. Hams, M. Hasegawa, A. Horokoshi, K.C. Kim, M.H. Lee, Y. Makida, S. Matsua, A. Moiseev, J. Nishimura, M. Mozaki, R. Orito, S. Orito, J.F. Ormes, K. Sakai, M. Sasaki, E. S. Seo, Y. Shikaze, R.E. Streitmatter, J. Suzuki, K. Tanaka, N. Thakur, T. Yamagami, A. Yamamoto, T. Yoshida, K. Yoshimura. Solar Modulation of Low-Energy Antiproton and Proton Spectra Measured by BESS. 30th International Cosmic Ray Conference. 2007, Mérida. V. 1, P.455-458.
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CRMAGNET-BESS-Polar-2004-NIM. M. Nozaki for the BESS-Polar Collaboration. BESS-Polar. Nuclear Instruments and Methods in Physics Research B 214 (2004) 110–115.
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CRMAGNET-BESS-Polar-2008-ADS. K. Yoshimura, K. Abe, H. Fuke, et al. (BESS collaboration). BESS-Polar experiment: Progress and future prospects. Advances in Space Research 42 (2008) 1664–1669.
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CRMAGNET-BESS-Polar-2008-ICRC-I. T. Hams, K. Abe, H. Fuke, et al. (BESS collaboration). Results from BESS-Polar I 2004 Antarctica Flight. 30th International Cosmic Ray Conference, 2008, V. 2 (OG part 1), pages 67–70.
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CRMAGNET-BESS-Polar-2008-ICRC-II. K. Yoshimura, K. Abe, H. Fuke, et al. (BESS collaboration). BESS-Polar II experiment. 30th International Cosmic Ray Conference, 2008, V. 2 (OG part 1), pages 91–94.
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CRMAGNET-BESS-Polar-PhysLett-AntiP. K. Abe, H. Fuke, S. Haino, et al. (BESS collaboration). Measurement of the cosmic-ray low-energy antiproton spectrum with the ﬁrst BESS-Polar Antarctic ﬂight. Physics Letters B 670 (2008) 103–108.
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CRMAGNET-BESS-TeV2003. S. Haino, K. Abe, K. Anraku, H. Fuke, N. Ikeda, M. Imori, A. Itasaki, K. Izumi, T. Maeno, Y. Makida, S. Matsuda, H. Matsumoto, J. Mitchell, A. Moiseev, J. Nishimura, M. Nozaki, H. Omiya, S. Orito, J.F. Ormes, T. Sanuki, M. Sasaki, E.S. Seo, Y. Shizake, R.E. Streitmatter, J. Suzuki, Y. Takasugi, K. Tanaka, T. Taniguchi, K. Tanizaki, T. Yamagami, A. Yamamoto, Y. Yamamoto, K. Yamato, T. Yoshida, K. Yoshimura, Cosmic-Ray Proton and Helium Spectra Measured with BESS-TeV. 28th International Cosmic Ray Conference. 2003. Trukuba, Japan. P.1825-1828.
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CRMAGNET-BESS-TeV2004. S. Haino, T. Sanuki, K. Abe, K. Anraku, Y. Asaoka, H. Fuke, M. Imori, A. Itasaki, T. Maeno, Y. Makida, S. Matsuda, N. Matsui, H. Matsumoto, J.W. Mitchell, A.A. Moiseev, J. Nishimura, M. Nozaki, S. Orito, J.F. Ormes, M. Sasaki, E.S. Seo, Y. Shikaze, R.E. Streitmatter, J. Suzuki, Y. Takasugi, K. Tanaka, K. Tanizaki, T. Yamagami, A. Yamamoto, Y. Yamamoto, K. Yamato, T. Yoshida, K. Yoshimura. Measurements of primary and atmospheric cosmic-ray spectra with the BESS-TeV spectrometer. Phys.Lett. B594 (2004) 35-46 (arXiv:astro-ph/0403704v1).
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CRMAGNET-BESS-TeV2005. T. Sanuki for the BESS Collaboration Measurement of cosmic-ray spectra with the BESS/BESS-TeV. [Здесь также описана техника вычисления потоков атмосферных нейтрино] Nuclear Physics B Supplement, Volume 145, 2005, p. 132-135.
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CRMAGNET-BESS-TeV2007. Y. Shikaze, S. Haino, K. Abe, H. Fuke, T. Hams, K.C. Kim, Y. Makida, S. Matsuda, J.W. Mitchell, A.A. Moiseev, J. Nishimura, M. Nozaki, S. Orito, J.F. Ormes, T. Sanuki, M. Sasaki, E.S. Seo, R.E. Streitmatter, J. Suzuki, K. Tanaka, T. Yamagami, A. Yamamoto, T. Yoshida, K. Yoshimura Measurements of 0.2 20 GeV/n cosmic-ray proton and helium spectra from 1997 through 2002 with the BESS spectrometer. Astroparticle Physics, 2007, Volume 28, Issue 1, p. 154-167. (arXiv:astro-ph/0611388)
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CRMAGNET-CAPRICE-AntiPart1997. M. Boezio, P. Carlson, T. Francke, N. Weber, M. Suffert, M. Hof, W. Menn, M. Simon, S.A. Stephens, R. Bellotti, F. Cafagna, M. Castellano, M. Circella, G. deCataldo, C. de Marzo, N. Giglietto, P. Spinelli, M. Bocciolini, P. Papini, A. Perego, S. Piccardi, P. Spillantini, G. Basini, M. Ricci, A. Codino, N. Finetti, C. Grimani, M. Candusso, M. Casolino, M.P. dePascale, A. Morselli, P. Picozza, R. Sparvoli, G. Barbiellini, U. Bravar, P. Schiavon, A. Vacchi, N. Zampa, J.W. Mitchell, J.F. Ormes, R.E. Streitmatter, R.L. Golden, S.J. Stochaj. The Cosmic-Ray Antiproton Flux between 0.62 and 3.19 G eV Measured Near Solar Minimum Activity. [здесь аккуратно переписана формула для солнечной модуляции из Gleeson'а] ApJ, 1997, V.487, P.~415--423.
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CRMAGNET-CAPRICE1999. M. Boezio, P. Carlson, T. Francke, N. Weber, M. Suffert, M. Hof, W. Menn, M. Simon, S.A. Stephens, R. Bellotti, F. Cafagna, M. Castellano, M. Circella, C. deMarzo, N. Finetti, P. Papini, S. Piccardi, P. Spillantini, M. Ricci, M. Casolino, M.P. dePascale, A. Morselli, P. Picozza, R. Sparvoli, G. Barbiellini, U. Bravar, P. Schiavon, A. Vacchi, N. Zampa, J.W. Mitchell, J.F. Ormes, R.E. Streitmatter, R.L. Golden, S.J. Stochaj. The cosmic-ray proton and helium spectra between 0.4 and 200 GV ApJ, 1999, V.~518, P.~457--472
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CRMAGNET-CAPRICE98-2003. M. Boezio, V. Bonvicini, P. Schiavon, A. Vacchi, N. Zampa, D. Bergstroem, P. Carlson, T. Francke, P. Hansen, E. Mocchiutti, M. Suffert, M. Hof, J. Kremer, W. Menn, M. Simon, M. Ambriola, R. Bellotti, F. Cafagna, F. Ciacio, M. Circella, C. N. De Marzo, N. Finetti, P. Papini, S. Piccardi, P. Spillantini, E. Vannuccini, S. Bartalucci, M. Ricci, M. Casolino, M. P. De Pascale, A. Morselli, P. Picozza, R. Sparvoli, J. W. Mitchell, J. F. Ormes, S. A. Stephens, R. E. Streitmatter, U. Bravar, S. J. Stochaj The Cosmic-Ray Proton and Helium Spectra measured with the CAPRICE98 balloon experiment. Astropart.Phys. 19 (2003) 583-604 (arXiv:astro-ph/0212253v1).
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CRMAGNET-GAISSER1992. T.K. Gaisser, R.K. Schaefer. Cosmic-ray secondary antiprotons - A closer look. ApJ, vol. 394, 1992, p. 174-183..
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CRMAGNET-GOLDEN1977. G.D. Badhwar, R.R. Daniel, T. Cleghorn, R.L. Golden, J.L. Lacy, J.E. Zipse, S.A. Stephens. The proton and helium rigidity spectra from 10 to 100 GV. [см. также Webber 1987A,1987B] 15th International Cosmic Ray Conference, 1977, V. 11. P. 155--160.
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CRMAGNET-GOLDEN1979. R.L. Golden, S. Horan, B.G. Mauger, G.D. Badhwar, J.L. Lacy, S.A. Stephens, R.R. Daniel, J.E. Zipse. Evidence for the existence of cosmic-ray antiprotons. [см. также Webber 1987A,1987B] Physical Review Letters, vol. 43, Oct. 15, 1979, p. 1196-1199.
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CRMAGNET-GOLDEN1985. R.L. Golden, S. Horan, B. Kimbell, G.D. Badhwar, J.L. Lacy, J.E. Zipse, R.R. Daniel, S.A. Stephens. Absolute rigidity spectrum of protons and helium nuclei above 10 GV/c. 19th Intern. Cosmic Ray Conf., 1985, Vol. 2 p 1-3.
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CRMAGNET-IMAX97. W. Menn L.M. Barbier, E.R. Christian, A.J. Davis, R.L. Golden, M. Hof, K.E. Krombel, J.F. Krizmanic, A.W. Labrador, R.A. Mewaldt, J.W, Mitchell, J.F. Ormes, I.L. Rasmussen, O. Reimer, S.M. Schindler, M. Simon, S.J. Stochaj, R.E. Streitmatter, W.R. Webber. Measurement of the Absolute Proton and Helium Flux at the Top of the Atmosphere using IMAX. 25th International Cosmic Ray Conference (Durban), 1997, V.3, P.409-412.
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CRMAGNET-LEAP1990A. A. Moats, T. Bowen, E.R. Streitmatter, J.S. Stochaj, F.J. Ormes, L. Barbier, L.R. Golden, A.S. Stephens, L.J. Evans Experimental Results on 600-1200 MeV Antiprotons in the Cosmic Radiation. 21st International Cosmic Ray Conference. 1990, Volume 3 (OG Sessions), p.284--287.
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CRMAGNET-LEAP1990B. E.R. Streitmatter, J.S. Stochaj, F.J. Ormes, L.R. Golden, A.S. Stephens, T. Bowen, A. Moats, J. Lloyd-Evans, L. Barbier, S.E. Seo Experimental Limit on Low Energy Antiprotons in the Cosmic Radiation. [section 3.4 for survey of experimnts > 10GeV]
21st International Cosmic Ray Conference. Volume 3 (OG Sessions), p.277-280.
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CRMAGNET-LEAP1991. E.S. Seo, J.F. Ormes, R.E. Streitmatter, S.J. Stochaj, W.V. Jones, S.A. Stephens, T. Bowen Measurement of cosmic-ray proton and helium spectra during the 1987 solar minimum. [section 3.4 for survey of experimnts > 10GeV]
ApJ, V. 378, 1991, P. 763-772.
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CRMAGNET-MASS91-1996. M. Hof, W. Menn, C. Pfeifer, M. Simon, R.L. Golden, S.J. Stochaj, S.A. Stephens, G. Basini, M. Ricci, F.Massimo Brancaccio, P. Papini, S. Piccardi, P. Spillantini, M.P. dePascale, A. Morselli, P. Picozza, M.T. Brunetti, A. Codino, C. Grimani, M. Menichelli, J.W. Mitchell, J.F. Ormes, R.E. Streitmatter. Measurement of Cosmic-Ray Antiprotons from 3.7 to 19 GeV. ApJ V.~467, P.~L33--L36.
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CRMAGNET-MASS91-1999. R. Bellotti, F. Cafagna, M. Circella, C. N. De Marzo, R. L. Golden and S. J. Stochaj, M. P. De Pascale, A. Morselli, P. Picozza, S. A. Stephens, M. Hof, W. Menn, M. Simon, J. W. Mitchell, J. F. Ormes, R. E. Streitmatter, N. Finetti, C. Grimani, P. Papini, S. Piccardi, and P. Spillantini, G. Basini and M. Ricci. Balloon measurements of cosmic ray muon spectra in the atmosphere along with those of primary protons and helium nuclei over midlatitude. Phys. Rev. D, V. 60, 1999, 052002 (15 pages).
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CRMAGNET-PAMELA-2009-AntiP. O. Adriani, G. C. Barbarino, G. A. Bazilevskaya, R. Bellotti, M. Boezio, E. A. Bogomolov, L. Bonechi, M. Bongi, V. Bonvicini, S. Bottai, A. Bruno, F. Cafagna, D. Campana, P. Carlson, M. Casolino, G. Castellini, M. P. De Pascale, G. De Rosa, D. Fedele, A. M. Galper, L. Grishantseva, P. Hofverberg, S. V. Koldashov, S. Y. Krutkov, A. N. Kvashnin, A. Leonov, V. Malvezzi, L. Marcelli, W. Menn, V. V. Mikhailov, M. Minori, E. Mocchiutti, M. Nagni, S. Orsi, G. Osteria, P. Papini, M. Pearce, P. Picozza, M. Ricci, S. B. Ricciarini, M. Simon, R. Sparvoli, P. Spillantini, Y. I. Stozhkov, E. Taddei, A. Vacchi, E. Vannuccini, G. Vasilyev, S. A. Voronov, Y. T. Yurkin, G. Zampa, N. Zampa, V. G. Zverev A new measurement of the antiproton-to-proton flux ratio up to 100 GeV in the cosmic radiation. Phys.Rev.Lett.102:051101,2009 (arXiv:0810.4994 [astro-ph]).
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CRMAGNET-PAMELA-2010-AntiP. PAMELA Collaboration: O. Adriani, G. C. Barbarino, G. A. Bazilevskaya, R. Bellotti, M. Boezio, E. A. Bogomolov, L. Bonechi, M. Bongi, V. Bonvicini, S. Borisov, S. Bottai, A. Bruno, F. Cafagna, D. Campana, R. Carbone, P. Carlson, M. Casolino, G. Castellini, L. Consiglio, M. P. De Pascale, C. De Santis, N. De Simone, V. Di Felice, A. M. Galper, W. Gillard, L. Grishantseva, P. Hofverberg, G. Jerse, A. V. Karelin, S. V. Koldashov, S. Y. Krutkov, A. N. Kvashnin, A. Leonov, V. Malvezzi, L. Marcelli, A. G. Mayorov, W. Menn, V. V. Mikhailov, E. Mocchiutti, A. Monaco, N. Mori, N. Nikonov, G. Osteria, P. Papini, M. Pearce, P. Picozza, C. Pizzolotto, M. Ricci, S. B. Ricciarini, L. Rossetto, M. Simon, R. Sparvoli, P. Spillantini, Y. I. Stozhkov, A. Vacchi, E. Vannuccini, G. Vasilyev, S. A. Voronov, J. Wu, et al. (4 additional authors not shown) PAMELA results on the cosmic-ray antiproton flux from 60 MeV to 180 GeV in kinetic energy. Physical Review Letters, 2010, vol. 105, Issue 12, id. 121101 (arXiv:1007.0821 [astro-ph.HE]).
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CRMAGNET-RICH1994. J. Buckley, J. Dwyer, D. Mueller; S. Swordy; K.K. Tang. A new measurement of the flux of the light cosmic-ray nuclei at high energies. [Ядра тоже измерялись!] ApJ, 1994, V.~429, P.~736--747.
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CRMAGNET-SMITH1972. A. Buffington, L.H. Smith, D.F. Smoot, L.W. Alvarez. Search for Antimatter in Primary Cosmic Rays. Nature, Volume 236, pp. 335-338 (1972).
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CRMAGNET-SMITH1973. L.H. Smith, A. Buffington, D.F. Smoot, L.W. Alvarez, M.A. Wahlig, A Measurement of Cosmic-Ray Rigidity Spectra above 5 GV/c of Elements from Hydrogen to Iron. ApJ, V.~180, P.~987-1010 (1973).
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CRMAGNET-VERMA1972. R.P. Verma, T.N. Rengarajan, S.N. Tandon, S.V. Damle, Yash Pal Rigidity Spectrum of Helium Nuclei above 17 GV and a Search for High Energy Anti-nuclei in Primary Cosmic Rays. Nature Physical Science, 1972, V.240, P.135-136.
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CRMAGNET-WEBBER1987A. W.R. Webber. The interstellar cosmic ray spectrum and energy density. Interplanetary cosmic ray gradients and a new estimate of the boundary of the heliosphere. [здесь спектр протонов от Golden 1979] A&A, 1987, V.~179, P.~277--284.
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CRMAGNET-WEBBER1987B. W.R. Webber, R.L. Golden, R.A. Mewaldt. A reexamination of the cosmic-ray helium spectrum and the He-3/He-4 ratio at high energies. [здесь спектр гелия от Golden 1979] ApJ, V.~312, 1987, P.~178--182.
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CRMAGNET-WEBBER1987C. W.R. Webber, R.L. Golden, S.A. Stephens. Cosmic ray proton & helium spectra from 5 - 200 GV measured with a magnetic spectrometer. 20th International Cosmic Ray Conference, Vol. 1, p. 325 - 328.
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Космические лучи - регистрация с использованием Луны

CRMOON-GORHAM1999. P. W. Gorham, K. M. Liewer, C. J. Naudet. Initial Results from a Search for Lunar Radio Emission from Interactions of $\ge 10^{19}$~eV Neutrinos and Cosmic Rays. arXiv:astro-ph/9906504
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CRMOON-ALVAREZ-MUNIZ2001. J. Alvarez-Muñiz, E. Zas Prospects for radio detection of extremely high energy cosmic rays and neutrinos in the Moon. First international workshop on the radio detection of high energy particles. AIP Conference Proceedings, V. 579, pp. 128-138 (2001). (arXiv:astro-ph/0102173v2)
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CRMOON-SCHOLTEN2006. O. Scholten, J. Bacelar, R. Braun, A.G. de Bruyn, H. Falcke, B. Stappers, R.G. Strom, Detecting UHE Cosmics & Neutrinos off the Moon; an Optimal Radio Window. Astropart.Phys.26:219-229,2006 (arXiv:astro-ph/0609179v2).
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CRMOON-SWARUP2008. Govind Swarup, Sukanta Panda, Prospects for detection of the lunar Cerenkov emission by the UHE Cosmic Rays and Neutrinos using the GMRT and the Ooty Radio Telescope. arXiv:0805.4304v1 [astro-ph].
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Космические лучи - ядра тяжелее гелия

CRNUCL-ATALLAH1973-ICRC. K. Atallah, T.F. Cleghorn, A. Modlinger, W.K.H. Schmidt Cosmic Ray Composition Measurements at High Energies. 13th International Conference on Cosmic Rays, 1973,V. 1, p.208
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CRNUCL-ATALLAH1976-AA. W.K.H. Schmidt, K. Atallah, T.F. Cleghorn, A. Modlinger, M. Simon, W.V. Jones. Results on the cosmic ray chemical composition at energies up to 100 GeV/nucl A&A, V. 46, no. 1, Jan. 1976, p. 49-59.
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CRNUCL-AUDOUZE1973-Nature. J. Audouze, Catherine J. Cesarsky Mean Path Length of High Energy Galactic Cosmic Rays in the Galactic Disk. Nature Physiacal Science V.241, P.98-100.
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CRNUCL-BARTHELMY1985. S.D. Barthelmy, M.H. Israel, J. Klarmann. Relative abundances of elements (20 <= Z <= 28) at energies up to 70 GeV/amu using relativistic rise in ion chambers 19th Intern. Cosmic Ray Conf., Vol. 2 p 24-27.
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CRNUCL-CALDWELL-1975-ICRC. J. Caldwell, P. Meyer. Charge composition and energy spectra of primary cosmic ray nuclei between 5 and 100 GeV per nucleon International Cosmic Ray Conference, 14th, Munich, West Germany, August 15-29, 1975, Conference Papers. Volume 1. (A76-26851 11-93) Munich, Max-Planck-Institut fuer extraterrestrische Physik, 1975, p. 273-277
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CRNUCL-CALDWELL-1977-ApJ. J.H. Caldwell. Charge composition and energy spectra of cosmic-ray nuclei at energies above 5 GeV per nucleon. Astrophysical Journal, Part 1, vol. 218, Nov. 15, 1977, p. 269-285
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CRNUCL-CASSE-1971-ICRC. M. Casse, L. Koch, N. Lund, J.-P. Meyer, B. Peters, A. Soutoul, S.N. Tandon. Chemical Composition of Heavy Cosmic Ray Nuclei above 5 GV. 12th International Conference on Cosmic Rays, held in Tasmania, Australia, 16-25 August, 1971. Volume 1., p.241
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CRNUCL-CHAPPEL-1981-ICRC. J.H. Chappell, W.P. Webber, W. R. High energy cosmic ray charge and energy spectra measurements. International Cosmic Ray Conference, 17th, Paris, France, July 13-25, 1981, Conference Papers. Volume 2. p. 59-62.
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CRNUCL-COWSIK1967-PhysRev. R. Cowsik, Yash Pal, S.N. Tandon, R.P. Verma.. Steady State of Cosmic-Ray Nuclei -- Treir Spectral Shape and Path Length at Low Energies. Phys. Rev., 1967, V.158, No.2, P.1238-1242
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CRNUCL-CRN-1987-ICRC-334. D. Muller, J. Grunsfeld, J. L'Heureux, P. Meyer, S.P. Swordy. The Energy Spectra of Primary Cosmic Ray Nuclei up to 1 TeV/nucleon. 20th International Cosmic Ray Conference Moscow, Volume 1, p.334-335.
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CRNUCL-CRN-1988-ApJL. J.M. Grunsfeld, J. L'Heureux, P. Meyer, D. Muller, S.P. Swordy. Energy spectra of cosmic-ray nuclei from 50 to 2000 GeV per AMU. Astrophysical Journal, Part 2 - Letters to the Editor (ISSN 0004-637X), vol. 327, April 1, 1988, p. L31-L34.
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CRNUCL-CRN-1990-ApJ. S.P. Swordy, D. Mueller, P. Meyer, J. L'Heureux, J.M. Grunsfeld. Relative abundances of secondary and primary cosmic rays at high energies.
[B/O, N/O, C/O; IMPORTANT! здесь также есть хороший обзор по моделям распространения]
Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 349, Feb. 1, 1990, p. 625-633.
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CRNUCL-CRN-1990-NIM. J. L'Heureux, J.M. Grunsfeld, P. Meyer, D. Müller, S.P. Swordy. A detector for cosmic-ray nuclei at very high energies. Nuclear Instruments and Methods in Physics Research Section A, Volume 295, Issue 1-2, p. 246-260.
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CRNUCL-CRN-1991-ApJ. D. Mueller, S.P. Swordy, P. Meyer, J. L'Heureux, J.M. Grunsfeld. Energy spectra and composition of primary cosmic rays. [Абсолютные потоки, B нет] Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 374, June 10, 1991, p. 356-365.
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CRNUCL-CRN-1991-22ICRC. P. Meyer, et al. Galactic Propagation and Source Composition of High Energy Cosmic Rays. Proceedings of the 22nd International Cosmic Ray Conference. 11-23 August, 1991. Dublin, Ireland. Under the auspices of the International Union of Pure and Applied Physics (IUPAP), Volume 2, Contributed Papers, OG Sessions 6-11. Dublin: The Institute for Advanced Studies, 1991., p.21
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CRNUCL-CRN-1993-ApJ. S.P. Swordy, J. L'Heureux, P. Meyer, D. Muller. Elemental abundances in the local cosmic rays at high energies. [Обсуждение, новых данных нет] Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 403, no. 2, p. 658-662.
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CRNUCL-DWYER-1985-ApJ. R. Dwyer, P. Meyer. Composition of cosmic-ray nuclei from boron to nickel for 1200 to 2400 MeV per nucleon. Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 294, July 15, 1985, p. 441-454.
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CRNUCL-GROVE-1991. J.E. Grove, B.T. Hayes, R.A. Mewaldt, W.R. Webber, W. R. The Mn-54 clock and its implications for cosmic-ray propagation and Fe isotope studies. Astrophysical Journal (ISSN 0004-637X), vol. 377, Aug. 20, 1991, p. 680-684.
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CRNUCL-GUPTA-1989. M. Gupta, W.R. Webber. The abundance of N-14 at the cosmic-ray source - A study using new fragmentation cross sections. Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 340, May 15, 1989, p. 1124-1134.
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CRNUCL-HEAO-HN-1981-IAUS. W.R. Binns, R. Fickle, C.J. Waddington, T.L. Garrard, E.C. Stone, M.H. Israel, J. Klarmann. The heavy nuclei experiment on HEAO-3. In: Origin of cosmic rays; Proceedings of the Symposium, Bologna, Italy, June 11-14, 1980. (A82-34026 16-93) Dordrecht, D. Reidel Publishing Co., 1981, p. 91, 92.
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CRNUCL-HEAO-HN-1981-NIM. W.R. Binns, M.H. Israel, J. Klarmann, W.R. Scarlett, C.J. Waddington, E.C. Stone The UH-nuclei cosmic ray detector on the third High Energy Astronomy Observatory. Nuclear Instruments and Methods, vol. 185, 1981, p. 415-426.
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CRNUCL-HEAO-HN-1981-ApJ. W.R. Binns, R.K. Fickle, C.J. Waddington, T.L. Garrard, E.C. Stone, M.H. Israel, J. Klarmann. Cosmic-ray abundances of elements with atomic number 26 < Z < 40 measured on HEAO 3. Astrophysical Journal, Part 2 - Letters to the Editor, vol. 247, Aug. 1, 1981, p. L115-L118.
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CRNUCL-HEAO-HN-1981-ICRC-109. C.J. Waddington, R.K. Fickle, T.L. Garrard, E.C. Stone, W.R. Binns, M.H. Israel, J. Klarmann Abundances of Cosmic-Ray Nuclei Heavier than ${}_{50}$Sn. 17th International Cosmic Ray Conference, held in Paris, France. Volume 9., p.109-112.
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CRNUCL-HEAO-HN-1982-ApJ. W.R. Binns, M.H. Israel, J. Klarmann, R.K. Fickle, C.J. Waddington, T.L. Garrard, E.C. Stone The abundance of the actinides in the cosmic radiation as measured on HEAO 3. Astrophysical Journal, Part 2 - Letters to the Editor, vol. 261, Oct. 15, 1982, p. L117-L120.
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CRNUCL-HEAO-HN-1983-ApJ. W.R. Binns, M.H. Israel, J. Klarmann, R.K. Fickle, C.J. Waddington, T.L. Garrard, K.E. Krombel, E.C. Stone Cosmic-ray abundances of Sn, Te, Xe, and Ba nuclei measured on HEAO 3. Astrophysical Journal, Part 2 - Letters to the Editor (ISSN 0004-637X), vol. 267, April 15, 1983, p. L93-L96
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CRNUCL-HEAO-HN-1983-ICRC-305. M.H. Israel, W.R. Binns, D.P. Grossman, J. Klarmann, S.H. Margolis, E.C. Stone, T.L. Garrard, K.E. Krombel, N.R. Brewster, R.K. Fickle Correlation of source abundances of ultraheavy cosmic rays with first ionization potential - Results from HEAO-3. 18th, Bangalore, India, August 22-September 3, 1983, Late Papers. Volume 9 (A85-22801 09-93). Bombay, Tata Institute of Fundamental Research, 1983, p. 305-308.
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CRNUCL-HEAO-HN-1983-ICRC-123. M.H. Israel, M.D. Jones, J. Klarmann, W.R. Binns, T.L. Garrard, E.C. Stone, R.K. Fickle, C.J. Waddington Energy spectra of ultraheavy cosmic rays - Results from HEAO-3. 18th, Bangalore, India, August 22-September 3, 1983, Late Papers. Volume 9 (A85-22801 09-93). Bombay, Tata Institute of Fundamental Research, 1983, p. 123-126.
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CRNUCL-HEAO-HN-1985-ApJ. W.R. Binns, M.H. Israel, N.R. Brewster, D.J. Fixsen, T.L. Garrard. Lead, platinum, and other heavy elements in the primary cosmic radiation - HEAO 3 results. Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 297, Oct. 1, 1985, p. 111-118.
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CRNUCL-HEAO-HN-1985-ICRC-28. M.D. Jones, J. Klarmann, E.C. Stone, C.J. Waddington, W.R. Binns, T.L. Garrard, M.H. Israel. Energy spectra of elements with 18 \le Z \le 28 between 10 and 300 GeV/amu. [Что-то очень странное для 18Ar и 20Ca] 19th Intern. Cosmic Ray Conf., Vol. 2 p 28-31.
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CRNUCL-HEAO-HN-1985-ICRC-123. B.J. Newport, E.C. Stone, C.J. Waddington, W.R. Binns, T.L. Garrard, M.H. Israel, J. Klarmann. Elemental abundances of cosmic rays with Z > 33 as measured on HEAO-3. 19th Intern. Cosmic Ray Conf., Vol. 2 p 123-126.
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CRNUCL-HEAO-HN-1987-ICRC-348. T.L. Garrard, P.S. Gibner, M.H. Israel, J. Klarmann, C.J. Waddington, W.R. Binns Anisotropy of Galactic Iron of Energy 30 TO 500 Gev/amu Studied by HEAO-3. 20th International Cosmic Ray Conference Moscow, 1987, Volume 1, p.348
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CRNUCL-HEAO-HN-1987-ICRC-330. M.H. Israel, M.D. Jones, M.P. Kamionkowski, J. Klarmann, E.C. Stone, C.J. Waddington, W.R. Binns, T.L. Garrard Cosmic-Ray Energy Spectra Between Ten and Several Hundred Gev/amu for Elements from (18)Ar to (28)Ni-RESULTS from HEAO-3 [Что-то очень странное для 18Ar и 20Ca] 20th International Cosmic Ray Conference Moscow, Volume 1, p.330
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CRNUCL-HEAO-HN-1988-ApJ. W.R. Binns, T.L. Garrard, M.H. Israel, MichaelD. Jones, M.P. Kamionkowski, J. Klarmann, E.C. Stone, C.J. Waddington Cosmic-ray energy spectra between 10 and several hundred GeV per atomic mass unit for elements from Ar-18 to Ni-28 - Results from HEAO 3. [Что-то очень странное для 18Ar и 20Ca] Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 324, Jan. 15, 1988, p. 1106-1117
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CRNUCL-HEAO-HN-1989-ApJ. W.R. Binns, T.L. Garrard, P.S. Gibner, M.H. Israel, M.P. Kertzman, J. Klarmann, B.J. Newport, E.C. Stone, C.J. Waddington. Abundances of ultraheavy elements in the cosmic radiation - Results from HEAO 3. Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 346, Nov. 15, 1989, p. 997-1009.
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CRNUCL-HEAO-HN-1989-ICRC. V. Vylet, C.J. Waddington, W.R. Binns, T.L. Garrard, M.H. Israel, J.Klarmann, M. Metzger Energy spectra between 10 and several hundred GeV/nucleon for elements from ${}_{18}$Ar to ${}_{23}$V: Results from HEAO-3 Proc. of 21st ICRC (1989), V.3, P.19-22.
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CRNUCL-HEAO-1981-ICRC-97. J.J. Engelmann, P. Goret, E. Juliusson, L. Koch-Miramond, P. Masse, N. Petrou, Y. Rio, A. Soutoul, B. Byrnak, H. Jakobsen, N. Lund, B. Peters, I.L. Rasmussen, M. Rotenberg, N. Westergaard The Elemental Composition of Cosmic Rays from Be to Zn as Measured by the French-Danish Instrument on HEAD-3. 17th International Cosmic Ray Conference, held in Paris, France. Volume 9., p.97-100.
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CRNUCL-HEAO-1981-ICRC-105. A. Soutoul, J.J. Engelmann, P. Goret, E. Juliusson, L. Koch-Miramond, P. Masse, N. Petrou, Y. Rio, T. Risbo Isotope Analysis Using the Geomagnetic Method. 17th International Cosmic Ray Conference, held in Paris, France. Volume 9., p.105-108.
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CRNUCL-HEAO-1982-Construction. M. Bouffard, J.J. Engelmann, L. Koch, A. Soutoul, N. Lund, B. Peters, I.L. Rasmussen The HEAO-3 Cosmic Ray Isotope spectrometer. Astrophysics and Space Science, vol. 84, no. 1, May 1982, p. 3-33.
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CRNUCL-HEAO-1983-ICRC-17. J.J. Engelmann, P. Goret, E. Juliusson, L. Koch-Miramond, P. Masse, A. Soutoul, B. Byrnak, N. Lund, B. Peters, I.L. Rasmussen Elemental configuration of cosmic rays from Be to NI as measured by the French-Danish instrument on HEAO-3. 18th International Cosmic Ray Conference, 1983, V.2, P.17-20.
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CRNUCL-HEAO-1983-ICRC-21. E. Juliusson, J.J. Engelmann, J. Jorrand, L. Koch-Miramond, P. Masse, N. Petrou, N. Lund, I.L. Rasmussen, M. Rotenberg The galactic cosmic ray energy spectra as measured by the French-Danish instrument on HEAO-3. 18th International Cosmic Ray Conference, 1983, V.2, P.21-24.
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CRNUCL-HEAO-1985-AA. J.J. Engelmann, P. Goret, L. Koch-Miramond, E. Juliusson, N. Lund Source energy spectra of heavy cosmic ray nuclei as derived from the French-Danish experiment on HEAO-3. Astronomy and Astrophysics (ISSN 0004-6361), vol. 148, no. 1, July 1985, p. 12-20
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CRNUCL-HEAO-1990-AA. J.J. Engelmann, P. Ferrando, A. Soutoul, P. Goret, E. Juliusson, L. Koch-Miramond, N. Lund, P. Masse, B. Peters, N. Petrou, I.L. Rasmussen. Charge composition and energy spectra of cosmic-ray nuclei for elements from Be to NI - Results from HEAO-3-C2. Astronomy and Astrophysics, V. 233, 1990, p. 96-111
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CRNUCL-JULIUSSON1972-PhysRevLett445. E. Juliusson, P. Meyer, D. Muller Composition of Cosmic-Ray Nuclei at High Energies. Phys. Rev. Lett., 1972, V.29, No 7, P. 445-448
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Опечатка
CRNUCL-JULIUSSON1973-ICRC-1. E. Juliusson. Cosmic Ray Nuclear Composition Above 20 GeV/Nucleon. 13th International Conference on Cosmic Rays, 1973,V. 1, p.178-183
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CRNUCL-JULIUSSON1973-ICRC-2. E. Juliusson, P. Meyer, D. Müller. Cosmic Rays at Very High Enregies: Discussion of Some New Results. 13th International Conference on Cosmic Rays, 1973,V. 1, p.373-377
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CRNUCL-JULIUSSON1974-ApJ. E. Juliusson. Charge Composition and Energy Spectra of Cosmic-Ray Nuclei at Energies above 20 GeV Per Nucleon. ApJ, 1974, Vol. 191, pp. 331-348
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CRNUCL-JULIUSSON1974-AAS. E. Juliusson, P. Meyer. Charge Composition and Energy Spectra of Cosmic Ray Nuclei [только заголовок доклада]. Bulletin of the American Astronomical Society, Vol. 6, p.275
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CRNUCL-JULIUSSON1975-ICRC-1. E. Juliusson. Composition of cosmic rays at 10-10 to 10-13 eV/nucleus.
[Здесь есть интересный упрощенный способ перехода от интегральных квазистепенных спектров к дифференциальным]
14th Intern. Cosmic Ray Conf., Munich, 15-29 Aug. 1975 V.8, P.2689-2694.
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CRNUCL-JULIUSSON1975-ICRC-2. E. Juliusson, C.J. Cesarsky, M. Meneguzzi, M. Casse. Source composition of cosmic rays at high energy. 14th Intern. Cosmic Ray Conf., Munich, 15-29 Aug. 1975 V.2, P.653-658.
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CRNUCL-JULLIOT1973-ICRC. C. Julliot, M. Cantin, J. Engelmann, L. Koch, N. Petrou, A. Soutoul. Satellite Measurements of the Chemical Abundances from Li through Ni in Galactic Cosmic Rays. 13th International Conference on Cosmic Rays, held in Denver, Colorado, Volume 1 (OG Sessions)., p.238-243
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CRNUCL-JULLIOT1975-ICRC. C. Julliot, L. Koch, N. Petrou. Satellite Measurements of the Chemical Abundances from Li through Ni in Galactic Cosmic Rays. 14th International Cosmic Ray Conference, 1975. Volume 12, p.4118-4122.
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CRNUCL-LEZNIAK-1978-ApJ. J.A. Lezniak, W.R. Webber. The charge composition and energy spectra of cosmic-ray nuclei from 3000 MeV per nucleon to 50 GeV per nucleon. Astrophysical Journal, Part 1, vol. 223, July 15, 1978, p. 676-696.
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CRNUCL-LUND1975-ICRC-Rapp. N. Lund. Chemical Composition of the Cosmic Radiation and the Electron Component.
[Рапортерский OG-доклад 14-й конференции: ядра, электроны] 14th International Cosmic Ray Conference, 1975. V. 11 (Invited Lectures and Rapporteur Papers), P.3746-3752
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CRNUCL-LUND1975-ICRC-257. N. Lund, I.L. Rasmussen, B. Peters, N.J. Westergaard. Irregularities in Cosmic Ray Composition.
14th International Cosmic Ray Conference, 1975. V.~1, P.~257-262
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CRNUCL-LUND1975-ICRC-263. N. Lund, I.L. Rasmussen, B. Peters, M. Rotenberg, N.J. Westergaard Composition Changes in the Iron Group Between 0.5 and 10 GeV/Nucleon.
14th International Cosmic Ray Conference, 1975. V.~1, P.~263-266
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CRNUCL-MENEGUZZI-1971-AA. M. Meneguzzi, J. Audouze, H. Reeves. The production of the elements Li, Be, B by galactic cosmic rays in space and its relation with stellar observations. Astron. Astrophys., V.15, p. 337 - 359
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CRNUCL-MENEGUZZI-1973-Nature. M. Meneguzzi. Energy Dependence of Primary Cosmic Ray Nuclei Abundance Ratios. Nature Physical Science, 1973, V.241, P.100-101
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CRNUCL-MEYER1985-ApJS. Meyer, J.-P. Solar-stellar outer atmospheres and energetic particles, and galactic cosmic rays. Astrophysical Journal Supplement Series (ISSN 0067-0049), vol. 57, Jan. 1985, p. 173-204.
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CRNUCL-ORMES1971-ICRC. J.F. Ormes, V.K. Balasubrahmanyan, M.J. Ryan. Charge Composition of Galactic Cosmic Radiation. 12th International Conference on Cosmic Rays, 1971. V. 1, P.178
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CRNUCL-ORMES1973-ApJ. V.K. Balasubrahmanyan, J.F. Ormes, Results on the Energy Dependence of Cosmic-Ray Charge Composition 1. Astrophysical Journal, 1973, V. 186, pp. 109-122 (1973)
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CRNUCL-ORMES1973-Nature. J.F. Ormes, V.K. Balasubrahmanyan. Charge Dependence of the Energy Spectra of Cosmic Rays. Nature Physical Science, 1973, V. 241, P.95-96.
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CRNUCL-ORMES1973-ICRC-1. J.F. Ormes, V.K. Balasubrahmanyan, J.F. Arens Variations of the Carbon+Oxygen to Iron and the Primary to Secondary Ratios with Energy from 2 to 50 GeV/Nucleon. 13th International Conference on Cosmic Rays, 1973, V. 1., p.157-162
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CRNUCL-ORMES1973-ICRC-2. V.K. Balasubrahmanyan, J.F. Ormes, R. Ramaty An Interpretation of the Carbon-Oxygen to Iron Ratio. 13th International Conference on Cosmic Rays, 1973,V. 1, p.163-165
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CRNUCL-ORMES1973-Science. R. Ramaty, V.K. Balasubrahmanyan, J.F. Ormes. Cosmic Ray Sources: Evidence for Two Acceleration Mechanisms. Science, V.180, Issue 4087, P. 731-733
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CRNUCL-ORTH1973-ICRC. L.H. Smith, A. Buffington, C.D. Orth, G.F. Smoot. The Rigidity Spectra of Charged Cosmic Nuclei from 5 GV/c to 100 GV/c. (Abstract) 13th International Conference on Cosmic Rays, 1973, V.~1, p.177.
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CRNUCL-ORTH1975-ICRC. Ch.D. Orth, A. Buffington, G.F. Smoot. Abundance Ratios for Primary Cosmic-Ray Nuclei from Be to Fe for 5 to 50 GV/c 14th International Cosmic Ray Conference, 1975, V.1, P.280-284.
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CRNUCL-ORTH1978. C.D. Orth, A. Buffington, G.F. Smoot, T.S. Mast Abundances and spectra for cosmic-ray nuclei from lithium to iron for 2 to 150 GeV per nucleon. Astrophysical Journal, Part 1, vol. 226, Dec. 15, 1978, p. 1147-1161.
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CRNUCL-ROSENVINGE-1969A. T.T von Rosenvinge, W.R. Webber, J.F. Ormes. The Relative Energy Spectra of Carbon and Oxygen Nuclei in the Primary Cosmic Radiation. Astrophysics and Space Science, Volume 3, Issue 1, pp.4-13
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CRNUCL-ROSENVINGE-1969B. T.T von Rosenvinge, W.R. Webber, J.F. Ormes. Measurements of Cosmic-Ray Li, Be and B Nuclei in the Energy Range 100 MeV/NUC to >22 BeV/NUC. Astrophysics and Space Science, Volume 3, Issue 1, pp.80-101
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CRNUCL-ROSENVINGE-1969C. J.A. Lezniak, J.F. Ormes, T.T von Rosenvinge, W.R. Webber. Observations on the Abundance of Nitrogen in the Primary Cosmic Radiation. Astrophysics and Space Science, Volume 5, Issue 1, pp.103-112
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CRNUCL-ROSENVINGE-1969D. T.T. von Rosenvinge, W.R. Webber, J.F. Ormes. A Comparison of the Energy Spectra of Cosmic Ray Helium and Heavy Nuclei. Astrophysics and Space Science, Volume 5, Issue 3, pp.342-359
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CRNUCL-SAITO1975-ICRC. T. Matsubayashi, M. Noma, T. Saito, Y. Sato, H. Sugimoto Energy Spectrum of VH-Nuclei Observed with Emulsion Chamber. 14th International Cosmic Ray Conference, held in München, Germany, 15-29 August, 1975. Volume 1 (OG Session)., p.290
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CRNUCL-SANRIKU1991-NIM. Masakatsu Ichimura, Eiji Kamioka, Motoyasu Kitazawa, Keisuke Kirii, Tadashi Kobayashi, Toru Shibata, Masataka Kogawa, Shuichi Kuramata, Hideya Matsutani, Takayuki Murabayashi, Hirotada Nanjyo, Zenjiro Watanabe, Hisahiko Sugimoto, Kazuma Nakazawa. Possibility of screen-type X-ray film for observation of heavy cosmic-ray primaries. Nucl. Instr. Meth. A, V.~300, P.~374--394.
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CRNUCL-SANRIKU1993-ICRC-1. M. Ichimura, E. Kamioka, et al. An Observation of Heavy Primary Cosmic Ray at Knee Region by Trigger. 23rd International Cosmic Ray Conference, Vol. 2, held 19-30 July, 1993 at University of Calgary, Alberta, Canada. Edited by D.A. Leahy, R.B. Hickws, and D. Venkatesan. Invited, Rapporteur, and Highlight Papers. Singapore: World Scientific, 1993., p.1
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CRNUCL-SANRIKU1993-ICRC-5. M. Ichimura, E. Kamioka, et al. The Cosmic Ray Energy Spectrum and Chemical Composition at the Knee Region. 23rd International Cosmic Ray Conference, Vol. 2, held 19-30 July, 1993 at University of Calgary, Alberta, Canada. Edited by D.A. Leahy, R.B. Hickws, and D. Venkatesan. Invited, Rapporteur, and Highlight Papers. Singapore: World Scientific, 1993., p.5
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CRNUCL-SANRIKU1993-ICRC-591. M. Ichimura, M. Kogawa, et al. Azimuthally Controlled Observation of Heavy Cosmic-Ray Primaries by Means of the Balloon-Borne Emulsion Chamber. 23rd International Cosmic Ray Conference, Vol. 1, held 19-30 July, 1993 at University of Calgary, Alberta, Canada. Edited by D.A. Leahy, R.B. Hickws, and D. Venkatesan. Invited, Rapporteur, and Highlight Papers. Singapore: World Scientific, 1993., p.591
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CRNUCL-SANRIKU1993-PhysRevD. M. Ichimura, M. Kogawa, S. Kuramata, H. Mito, T. Murabayashi, H. Nanjo, T. Nakamura, K. Ohba, T. Ohuchi, T. Ozawa, Y. Yamada, H. Matsutani, Z. Watanabe, E. Kamioka, K. Kirii, M. Kitazawa, T. Kobayashi, A. Mihashi, T. Shibata, K. Shibuta, H. Sugimoto, K. Nakazawa Observation of heavy cosmic-ray primaries over the wide energy range from ~100 GeV/particle to ~100 TeV/particle: Is the celebrated ``knee'' actually so prominent? Physical Review D (Particles and Fields), Volume 48, Issue 5, 1 September 1993, pp.1949-1975.
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CRNUCL-SANRIKU1997-APart. E. Kamioka, M. Hareyama, M. Ichimura, Y. Ishihara, T. Kobayashi, H. Komatsu, S. Kuramata, K. Maruguchi, H. Matsutani, A. Mihashi, H. Mito, T. Nakamura, H. Nanjo, T. Ouchi, T. Ozawa, T. Shibata, H. Sugimoto and Z. Watanabe Azimuthally controlled observation of heavy cosmic-ray primaries by means of the balloon-borne emulsion chamber. Astroparticle Physics, Volume 6, Issue 2, February 1997 , Pages 155-167 .
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CRNUCL-SANRIKU1999-ICRC. M. Hareyama, M. Ichimura, E. Kamioka, T. Kobayashi, S. Kuramata, H. Matsutani, H. Nanjo, T. Shibata, H. Sugimoto. SUB-Fe/Fe ratio obtained by Sanriku balloon experiment 26th International Cosmic Ray Conference. August 17-25, 1999. Salt Lake City, Utah, USA. Under the auspices of the International Union of Pure and Applied Physics (IUPAP). Volume 3. Edited by D. Kieda, M. Salamon, and B. Dingus, p.105.
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CRNUCL-SHAPIRO1970-AnnRew. M.M. Shapiro, R. Silberberg. Heavy Cosmic Ray Nuclei. Annual Review of Nuclear and Particle Sciences, 1970, vol. 20, pp.323-392
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CRNUCL-SHAPIRO1972-SpRes. M.M. Shapiro, R. Silberberg, C.H. Tsao. Composition of relativistic cosmic rays near the earth and at the sources. Space Research XII -- Akademic-Verlag, Berlin, 1972. P. 1609--1615.
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CRNUCL-SIMON1980. M. Simon, H. Spiegelhauer, W.K.H. Schmidt, F. Siohan, J.F. Ormes, V.K. Balasubrahmanyan, J.F. Arens Energy spectra of cosmic-ray nuclei to above 100 GeV per nucleon. Astrophysical Journal, Part 1, vol. 239, July 15, 1980, p. 712-724.
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CRNUCL-SMITH1971-ICRC. A. Buffington, L.H. Smith, G. Smoot, M.A. Wahlig, L.W. Alvarez. Measurement of the Primary Cosmic Ray Nuclear Rigidity Spectra for Individual Elements of Charge Z >= 2. 12th International Conference on Cosmic Rays, 1971. V.~1., p.147.
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CRNUCL-TRACER2004-ApJ. F. Gahbauer, G. Hermann, J.R. Hörandel, D. Müller, A.A. Radu. A New Measurement of the Intensities of the Heavy Primary Cosmic-Ray Nuclei around 1 TeV amu$^{-1}$. The Astrophysical Journal, Volume 607, Issue 1, pp. 333-341.
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CRNUCL-TRACER2005-ICRC-1. P.J. Boyle, M. Ave, F. Gahbauer, C. Höppner, J. Hörandel, M. Ichimura, D. Müller, A. Romero-Wolf, S. Wakely. Energy Spectra of Heavy Cosmic Ray Nuclei from 0.5 GeV/amu to 10,000 GeV/amu. 29th International Cosmic Ray Conference, 2005, Pune, India. V. 3, p.65--68.
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CRNUCL-TRACER2005-ICRC-2. D. Muller, M. Ave, P. Boyle, F. Gahbauer, C. Hoppner, J. Horandel, M. Ichimura, A. Romero-Wolf, S. Wakely. Measurements with TRACER: Discussion of Results and Future Prospects. 29th International Cosmic Ray Conference, 2005, Pune, India. V. 3, p.89--92.
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CRNUCL-TRACER2007-COSPAR. P.J. Boyle, M. Ave, F. Gahbauer, C. Hoeppner, J. Hoerandel, M. Ichimura, D. Mueller, A. Romero-Wolf Cosmic ray composition at high energies: Results from the TRACER project. 2006cosp...36.2517A (arXiv:astro-ph/0703707v1).
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CRNUCL-TRACER2008A-AdSpR. P.J. Boyle, F. Gahbauer, C. Höppner, J. Hörandel, M. Ichimura, D. Müller, A. Romero Wolf. Cosmic ray composition at high energies: The TRACER project. Advances in Space Research, Volume 42, Issue 3, p. 409-416. (arXiv:astro-ph/0703707).
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CRNUCL-TRACER2008B-ApJ. M. Ave, P.J. Boyle, F. Gahbauer, C. Höppner, J.R. Hörandel, M. Ichimura, D. Müller, A. Romero-Wolf. Composition of Primary Cosmic-Ray Nuclei at High Energies. [O,Ne,Mg,Si+S,Ar,Ca,Fe - табличные данные] ApJ, Volume 678, Issue 1, pp. 262-273.
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CRNUCL-TRACER2008C-ICRC. M. Ave, P.J. Boyle, C. Höppner, et al. Propagation of High-Energy Cosmic Rays through the Galaxy: Discussion and Interpretation of TRACER Results 30th International Cosmic Ray Conference. 2008. Volume 2, p.215-218.
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CRNUCL-TRACER2008D-ICRC. M. Ave, P.J. Boyle, C. Höppner, et al. Cosmic Ray Energy Spectra of Primary Nuclei from Oxygen to Iron: Results from the TRACER 2003 LDB Flight 30th International Cosmic Ray Conference. 2008. Volume 2, p.87-90.
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CRNUCL-TRACER2008E-ICRC. D. Müller, M. Ave, P.J. Boyle, et al. The TRACER Project: Instrument Concept, Balloon Flights, and Analysis Procedures 30th International Cosmic Ray Conference. 2008. Volume 2, p.83-86.
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CRNUCL-TRACER2009A. A. Obermeier, M. Ave, P. J. Boyle, C. Hoppner, M. Ichimura, D. Muller. Composition and energy spectra of cosmic-ray nuclei at high energies. [ADS-Поиск: Muller, TRACER] PROCEEDINGS OF THE 31st ICRC, LODZ 2009 (ID0526).
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CRNUCL-TRACER2009B. M. Ave, P.J. Boyle, C. Höppner, J. Marshall, D. Müller Propagation and Source Energy Spectra of Cosmic Ray Nuclei at High Energies. ApJ, V.~697, P.~106--114 (2009).(arXiv:0810.2972)
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CRNUCL-TRACER2010-COSPAR. A. Obermeier, M. Ave, P. Boyle, J.R. Hörandel, D. Mueller. Determining composition and propagation of Galactic cosmic rays with TRACER. [Abstract] 38th COSPAR Scientific Assembly. Held 18-15 July 2010, in Bremen, Germany, p.6.
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CRNUCL-TRACER2011-ApJ. A. Obermeier, M. Ave, P. Boyle, Ch. Höppner, J. Hörandel, D. Müller Energy spectra of primary and secondary cosmic-ray nuclei measured with TRACER. 2011 ApJ 742 14 (arXiv:1108.4838v1 [astro-ph.HE]).
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CRNUCL-TRACER2012A. A. Obermeier, P. Boyle, J. Hörandel, D. Müller The boron-to-carbon abundance ratio and Galactic propagation of cosmic radiation. ApJ, 752, id 69 (2012) arXiv:1204.6188v1 [astro-ph.HE].
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CRNUCL-WADDINGTON1965-ICRC. C.J. Waddington, P.S. Freier. Very heavy low energy cosmic ray nuclei.
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CRNUCL-WADDINGTON1968-PhysRev-1. P.S. Freier, C.J. Waddington. Very Heavy Nuclei in the Primary Cosmic Radiation. I. Observations on the Energy Spectrum.
[Эмульсии, энергии не выше 7 ГэВ/нуклон]
Phys.Rev. 1968, V.175, No.5, P.1641-1648.
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CRNUCL-WADDINGTON1968-PhysRev-2. C.J. Waddington, P.S. Freier. Very Heavy Nuclei in the Primary Cosmic Radiation. II. Interpretation of the Energy Spectra.
[Эмульсии, энергии не выше 7 ГэВ/нуклон]
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CRNUCL-WEBBER1965-ICRC-403. W.R. Webber. Some implications of the relative spectra of the different charge components in the primary radiation. Proceedings of the 9th International Cosmic Ray Conference, Vol. 1, p.403.
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CRNUCL-WEBBER1965-ICRC-407. W.R. Webber, J.F. Ormes, T. von Rosenvinge. Measurements of the energy spectrum of nuclei with Z >= 3 in the primary radiation using a balloon-borne Cerenkov-scintillation counter. Proceedings of the 9th International Cosmic Ray Conference, Vol. 1, p.407.
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CRNUCL-WEBBER1972-ApSS. W.R. Webber, S.V. Damle, J. Kish. Studies of the chemical composition of cosmic rays withZ=3-30 at high and low energies.
[до энергий 1.5 ГэВ/нуклон]
Astrophysics and Space Science, V.15, Issue 2, pp.245-271.
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CRNUCL-WEBBER1973-Nature. W.R. Webber, J.A. Lezniak, J.C. Kish, S.V. Damle. Evidence for Differences in the Energy Spectra of Cosmic Ray Nuclei. Nature Physical Science, 1973, V. 241, P. 96-98.
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CRNUCL-WEBBER1973-ICRC. W.R. Webber, J.A. Lezniak, J. Kish. Differences in the Spectra of Cosmic Ray Nuclear Species Below~5 GeV/nuc. 13th International Conference on Cosmic Rays, 1973,V. 1, p.248
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CRNUCL-WEBBER1982-ApJ. W.R. Webber. Charge abundance of cosmic rays at their source. Astrophysical Journal, Part 1, vol. 255, Apr. 1, 1982, p. 329-340.
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CRNUCL-WEBBER1987-ICRC. W.R. Webber. a New Formula for Calculating Cosmic Ray Cross Sections in Hydrogen Targets. 20th International Cosmic Ray Conference Moscow, Volume 2, p.463.
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CRNUCL-WEBBER1990-ApJ. W.R. Webber, M. Gupta, A. Soutoul, P. Ferrando. The source charge and isotopic abundances of cosmic rays with Z = 9-16 - A study using new fragmentation cross sections. Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 348, Jan. 10, 1990, p. 611-620.
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CRNUCL-WEBBER1996-ApJ. W.R. Webber, A. Lukasiak, F.B. McDonald, F. B., P. Ferrndo. New High-Statistical--High-Resolution Measurements of the Cosmic-Ray CNO Isotopes from a 17 Year Study Using the Voyager 1 and 2 Spacecraft. Astrophysical Journal v.457, p.435.
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Космические лучи - распространение

CRPROP-EW2012A. A.D. Erlykin, A.W. Wolfendale. A new component of cosmic rays? Astroparticle Physics, Volume 35, Issue 7, p. 449-456.
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CRPROP-EW2012B. A.D. Erlykin, A.W. Wolfendale. Fine structure in the cosmic ray spectrum: Further analysis and the next step. Astroparticle Physics, Volume 35, Issue 6, p. 371-376.
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CRPROP-GINZBURG1953. В.Л. Гинзбург. Происхождение космических лучей и радиоастрономия. УФН. 1953, Т. 53(3), С.343-393.
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CRPROP-ACKERMANN2011. M. Ackermann, et al. A Cocoon of Freshly Accelerated Cosmic Rays Detected by Fermi in the Cygnus Superbubble. Science 334, 1103 (2011).
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CRPROP-COWSIK1973. R. Cowsik, L. W. Wilson, Is the Residence Time of Cosmic Rays in the Galaxy Energy-Dependent? Proceedings of the 13th International Conference on Cosmic Rays, held in Denver, Colorado, Volume 1 (OG Sessions)., 1973, p.500-505.
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CRPROP-COWSIK1975. R. Cowsik, L. W. Wilson. The Nested Leaky-Box Model for Galactic Cosmic Rays. 14th International Cosmic Ray Conference, München, 1975. V.~2, P.659--664.
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CRPROP-FERMI1949. Enrico Fermi On the Origin of the Cosmic Radiation. Phys. Rev. V.75(7), 1949, P.1169-1174.
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CRPROP-GARCIA-MUNOZ1987. M. Garcia-Munoz, J. A. Simpson, T. G. Guzik, J. P. Wefel, S. H. Margolis. Cosmic-ray propagation in the Galaxy and in the heliosphere - The path-length distribution at low energy. [weighted-slab, Здесь есть также хорошая компиляция эксперимента B/C] ApJ Suppl., V. 64, 1987, P. 269-304..
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CRPROP-GLOECKLER1969-PRL. G. Gloeckler, J.R. Jokipii. Physical basis of the transport and composition of casmic rays in the galaxy. Phys. Rev. Lett. 1969, V.22, No.26, P.1448-1453.
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CRPROP-HOLMES1975. J.A. Holmes The confinement of galactic cosmic rays by Alfven waves. MNRAS, 1975, V.~170, P.~251--260.
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CRPROP-KALMYKOV-TIMOKHIN2006A. Н.Н.Калмыков, А.В.Тимохин Изменение энергетических спектров различных групп ядер в процессе распространения космических лучей в Галактике. 29-я РККЛ, Москва, 2006. ПКЛ N8.
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CRPROP-KALMYKOV-TIMOKHIN2006B. Joerg R. Hoerandel, Nikolai N. Kalmykov, Aleksei V. Timokhin. Propagation of super high-energy cosmic rays in the Galaxy. Astropart.Phys.27:119-126,2007, arXiv:astro-ph/0609490v1.
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CRPROP-LAGUTIN2005. A.A. Lagutin, R.I. Raikin, A.G. Tyumentsev, A.V. Yushkov. Cosmic ray trasport in the fractal-like galactic medium. 29th international Cosmic Ray Conferense, Pune (2005). V.3, P.197-200.
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CRPROP-LAGUTIN2013. A. Lagutin, A. Tyumentsev. Monte Carlo simulations of anomalous diffusion of cosmic rays. Journal of Physics: Conference Series 409 (2013) 012050.
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CRPROP-LETAW1993. J. H. Letaw, R. Silberger, C. H. Tsao Comparison of distributed reacceleration and leaky-box models of cosmic-ray abundances (3 \leq Z \leq 28). ApJ, V.414, 1993, P.501-611.
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CRPROP-MENEGUZZI1973. M. Meneguzzi The variation of the high energy primary nuclei composition and the confinement region of csmic rays. Proceedings of the 13th International Conference on Cosmic Rays, held in Denver, Colorado, Volume 1 (OG Sessions)., 1973, p.378-383.
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CRPROP-MEWALDT1990. R. A. Mewaldt, W.R. Webber. Cosmic ray source abundances derived from high energy measurements of Fe-group nuclei. 21st International Cosmic Ray Conference, 1990, V.3, P.432-435.
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CRPROP-OHIRA2011. Yutaka Ohira and Kunihito Ioka. COSMIC-RAY HELIUM HARDENING. The Astrophysical Journal Letters, 729:L13 (5pp), 2011.
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CRPROP-OWENS1976. A.J. Owens. The age distribution of galactic cosmic rays. II - Interacting, decaying, and secondary particles.
[Колмогоровская диффузия и показатель -0.33]
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CRPROP-ORMES1978. J. Ormes, P. Freier. On the propagation of cosmic rays in the Galaxy. [Leaky-box, ссылки на ранние экспериментальные данные по всем ядрам]
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CRPROP-PETERS1977. B. Peters, N.J. Westergaard. Cosmic ray propagation in a closed galaxy. Astrophysics and Space Science, vol. 48, no. 1, May 1977, p. 21-46.
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CRPROP-TOMASETTI2015. Nicola Tomassetti. Origin of the Proton-to-Helium Ratio Anomaly in Cosmic Rays? arXiv:1511.04460 [astro-ph.HE].
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CRPROP-PTUSKIN1975. В.Л. Гинзбург, В.С. Птускин. О происхождении космических лучей (Некоторые вопросы астрофизики высоких энергий). УФН, Т.117, вып.~4, 1975, С.585-636.
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CRPROP-PTUSKIN1988. J. L. Osborne, V. S. Ptuskin Cosmic-ray reacceleration in the interstellar medium. Sov. Astron. Lett. V.14(2), 1988, P.132-134.
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CRPROP-PTUSKIN1993. V.S. Ptuskin, S.I. Rogovaya, V.N. Zirakashvilli, L.G. Chuvilgin, G.B. Khristiansen, E.G. Klepach, G.V. Kulikov. Diffusion and drift of very high energy cosmic rays in galactic magnetic fields. Astron. Astrophys (A&A), V.268 (1993), P.726-735.
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CRPROP-PTUSKIN1999. A. A. Soutoul and V. S. Ptuskin. Energy-dependent abundance of secondary nuclei in cosmic rays: an indication of altitude-dependent convection above the galactic plane?. Proc. 26th Int. Cosmic-Ray Conf.}, volume~4, page 184-186, Salt Lake City, 1999.
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CRPROP-PTUSKIN2003A. V. S. Ptuskin, I. V. Moskalenko, F. C. Jones, A. W. Strong, S. G. Mashnik. Propagation model for cosmic ray species in the Galaxy. [Reacceleration - противоречия в количестве антипротонов и вторичных ядер] Adv.Space Res.35:162-166,2005 (arXiv:astro-ph/0301420v1).
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CRPROP-PTUSKIN2003B. E. G. Berezhko, L. T. Ksenofontov, V. S. Ptuskin, V. N. Zirakashvili, H. J. Voelk. Cosmic ray production in supernova remnants including reacceleration: the secondary to primary ratio Astron.Astrophys. 410 (2003) 189-198 (arXiv:astro-ph/0308199v1).
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CRPROP-PTUSKIN2007. Andrew W. Strong, Igor V. Moskalenko, Vladimir S. Ptuskin. Cosmic-ray propagation and interactions in the Galaxy. Ann.Rev.Nucl.Part.Sci.57:285-327,2007. (arXiv:astro-ph/0701517v1)
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CRPROP-PTUSKIN2009. Vladimir Ptuskin, Olga Strelnikova and Lyubov Sveshnikova. On leaky-box approximation to GALPROP. Astroparticle Physics, Volume 31, Issue 4, p. 284-289.
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CRPROP-PTUSKIN2010. В. С. Птускин. Происхождение космических лучей. УФН, 2010, Т.~180, \No 9, С.~1000--1004
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CRPROP-PROTHEROE1981. R. J. Protheroe, J. F. Ormes, G. M. Comstock Interpretation of cosmic ray composition - The path length distribution. ApJ, V. 247, 1981, P.362-373.
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CRPROP-RAMATY1969. R. Ramaty, R.E. Lingenfelter. Cosmic-Ray Deuterium and HELIUM-3 of Secondary Origin and the Residual Modulation of Cosmic Rays. Astrophysical Journal, 1969, V.155, P.587.
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CRPROP-SHAPIRO1970. M.M. Shapiro, R. Silberberg. Heavy Cosmic Ray Nuclei. [Есть обзор по распространению] Annual Review of Nuclear and Particle Sciences, 1970, vol. 20, pp.323-392.
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CRPROP-SILBERBERG1983. R. Silberberg, C.H. Tsao, J.R. Letaw, M.M. Shapiro. Distributed acceleration of cosmic rays. Physical Review Letters, V. 51, 1983, P. 1217-1220.
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CRPROP-SIMON1986. M. Simon, W. Heinrich, K. D. Mathis Propagation of the injected cosmic rays under distributed reacceleration. ApJ, V.300, 1986, P.32-40.
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CRPROP-SIMPSON1988. J.A. Simpson, M. Garcia-Munoz. Cosmic-ray lifetime in the Galaxy - Experimental results and models. [Be10, плотность ISM 0.24cm^{-3}] Space Science Reviews (ISSN 0038-6308), vol. 46, no. 3-4, 1988, p. 205-224.
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CRPROP-STRONG-MOSKALENKO1998-GALPROP. A. W. Strong, I. V. Moskalenko. Propagation of Cosmic-Ray Nucleons in the Galaxy. The Astrophysical Journal, Volume 509, Issue 1, pp. 212-228
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CRPROP-STRONG-MOSKALENKO2001. A. W. Strong, I. V. Moskalenko. Models for Galactic cosmic-ray propagation. Adv.Space Res. 27 (2001) 717-726. (arXiv:astro-ph/0101068v1)
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CRPROP-STREITMATTER2005-ICRC. R.E. Streitmatter, F.C. Jones. Superbubbles and Local Cosmic Rays Proceedings of the 29th International Cosmic Ray Conference. August 3-10, 2005, Pune, India. Edited by B. Sripathi Acharya, Sunil Gupta, P. Jagadeesan, Atul Jain, S. Karthikeyan, Samuel Morris, and Suresh Tonwar. Mumbai: Tata Institute of Fundamental Research, 2005. Volume 3, p.157.
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CRPROP-WEBBER1973-ApSS. W.R. Webber, J.A. Lezniak, J. Kish, S.V. Damle. The relative abundance od the isotops pf Li, Be and B and the age of cosmic rays.
Astrophysics and Space Science, V.24, 1973, 17-29.
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CRPROP-WEBBER1992-ApJ. W.R. Webber, M.A. Lee, M. Gupta. Propagation of cosmic-ray nuclei in a diffusing galaxy with convective halo and thin matter disk. [B/C до 300 GeV/n - откуда?] ApJ, V. 390, 1992, p. 96-104.
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Космические лучи - сечения фрагментации и прочее

CRNUCL-JULIUSSON1975-ICRC-2. E. Juliusson, C.J. Cesarsky, M. Meneguzzi, M. Casse. Source composition of cosmic rays at high energy. 14th Intern. Cosmic Ray Conf., Munich, 15-29 Aug. 1975 V.2, P.653-658.
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CRNUCL-GUPTA-1989. M. Gupta, W.R. Webber. The abundance of N-14 at the cosmic-ray source - A study using new fragmentation cross sections. [Особенности сечений фрагментации при низких энергиях] Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 340, May 15, 1989, p. 1124-1134.
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CRSECT-KLIMENKO-2000. S. Klimenko, J. Konigsberg, T.M. Liss. Averaging of the inelastic cross sections measured by the CDF and the E811 experiments. Fermilab-FN-0741, 2000 (?)
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CRSECT-LETAW-1983. J.R. Letaw, R. Silberberg, C.H. Tsao. Proton-Nucleus total inelastic cross sections: an empirical formula for E > 10 MeV. ApJ Suppl. Ser. V.51, p.271-276
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CRNUCL-WEBBER1987-ICRC. W.R. Webber. a New Formula for Calculating Cosmic Ray Cross Sections in Hydrogen Targets. 20th International Cosmic Ray Conference Moscow, Volume 2, p.463.
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CRSECT-FERRANDO-1988. P. Ferrando, W.R. Webber, P. Goret, J.C. Kish, D.A. Schrier, A. Soutoul, O. Testard. Measurement of ${}^{12}$C, ${}^{16}$O, and ${}^{56}$Fe charge changing cross sections in helium at high energy, comparison with cross sections in hydrogen, and application to cosmic-ray propagation. Physical Review C (Nuclear Physics), Volume 37, Issue 4, April 1988, pp.1490-1501
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CRSECT-MEYER1975. J.P. Meyer, M. Cassé, N. Westergaard. Cross Sections for Atmospheric Corrections.
14th International Cosmic Ray Conference, held in München, Germany, 15-29 August, 1975. Volume 12, p.4144-4150.
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CRSECT-SILBERBERG1973. R. Silberberg, C.H. Tsao. Partial Cross-Sections in High-Energy Nuclear Reactions, and Astrophysical Applications. I. Targets With z <= 28.
[См. другие статьи тех же авторов, в т.ч. более поздние, особенно обзор 1990 в Phys.Repts]
Astrophysical Journal Supplement, vol. 25, p.315-333 (1973).
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CRSECT-SILBERBERG1977-84. R. Silberberg, C.H. Tsao. Modification of Semiempirical Equations for Calculating Partial Cross Sections of p-Nucleus Reactions.
15th International Cosmic Ray Conference, Vol. 2. p.84-88
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CRSECT-SILBERBERG1977-89. R. Silberberg, C.H. Tsao. Calculations of nucleus-nucleus cross sections, and the attenuation of complex cosmic-ray nuclei in the atmosphere.
15th International Cosmic Ray Conference, Vol. 2. p.89-94
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CRSECT-SILBERBERG1979. C.H. Tsao, R. Silberberg, R. Improved Semiempirical Estimates of Cross Sections.
16th International Cosmic Ray Conference, 1979, Vol. 2. P.~202
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CRSECT-SHAPIRO1975. M.M. Shapiro, R. Silberberg, C.H. Tsao, C. H. What new cross sections say about source composition and cosmic-ray propagation.
[Здесь дана также классическая компиляция состава первичного источника]
14th International Cosmic Ray Conference, 1975, Vol. 2, p. 532 - 537
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CRNUCL-SOUTOUL1985-ICRC-8. A. Soutoul, J.J. Engelmann, P. Ferrando, L. Koch-Miramond, P. Masse, W.R. Webber Charge and energy dependence of the residence time of cosmic ray nuclei below 15 GeV/nucleon. 19th Intern. Cosmic Ray Conf., Vol. 2 p 8-11.
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CRSECT-WESTFALL1979-PhysRev. G.D. Westfall, LanceW. Wilson, P.J. Lindstrom, H.J. Crawford, D.E. Greiner, H.H. Heckman Fragmentation of relativistic ${}^{56}$Fe. Physical Review C (Nuclear Physics), Volume 19, Issue 4, April 1979, pp.1309-1323.
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Космические лучи - ядра тяжелее железа.

CRUHN-BONETTI-2018. Matteo Bonetti, Albino Perego, Pedro R. Capelo, Massimo Dotti, M. Coleman Miller. r-process nucleosynthesis in the early Universe through fast mergers of compact binaries in triple systems. arXiv:1801.03506 [astro-ph.HE].
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CRUHN-THIELMANN-2017. F.-K. Thielemann, M. Eichler, I.V. Panov, and B. Wehmeyer. Neutron Star Mergers and Nucleosynthesis of Heavy Elements. Annual Review of Nuclear and Particle Science, 2017, Vol. 67:253-274.
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Космология

CS-AFSHORDI2017. Niayesh Afshordi, Claudio Corianò, Luigi Delle Rose, Elizabeth Gould, and Kostas Skenderis. From Planck Data to Planck Era: Observational Tests of Holographic Cosmology. PRL 118, 041301 (2017).
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CS-AZHAR2016. Feraz Azhar, Jeremy Butterfield. Scientific Realism and Primordial Cosmology. arXiv:1606.04071 [physics.hist-ph].
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CS-BAUMANN2009. Daniel Baumann. TASI Lectures on Inflation. arXiv:0907.5424v1 [hep-th].
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CS-BAUMANN2014. Daniel Baumann, Liam McAllister. Inflation and String Theory. arXiv:1404.2601 [hep-th].
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CS-BELINSKY2009. V. Belinski. Cosmological singularity. arXiv:0910.0374v1 [gr-qc].
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CS-BELLINI2019. Emilio Bellini, Ignacy Sawicki, Miguel Zumalacárregui. hi_class: Background Evolution, Initial Conditions and Approximation Schemes. JCAP02(2020)008, arXiv:1909.01828 [astro-ph.CO].
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CS-BRANDENBERGER2010. Rouzbeh Allahverdi, Robert Brandenberger, Francis-Yan Cyr-Racine, Anupam Mazumdar. Reheating in Inflationary Cosmology: Theory and Applications arXiv:1001.2600v3 [hep-th]
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CS-BRANDENBERGER2012. Robert Brandenberger. Do we have a Theory of Early Universe Cosmology? [Alternatives to inflation] arXiv:1204.6108v1 [astro-ph.CO].
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CS-BRANDENBERGER2016. Robert Brandenberger, Patrick Peter. Bouncing Cosmologies: Progress and Problems. arXiv:1603.05834 [hep-th].
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CS-HEISENBERG2016. Lavinia Heisenberg, Alexandre Refregier. Cosmology in doubly coupled massive gravity: constraints from SNIa, BAO and CMB. arXiv:1604.07680 [astro-ph.CO].
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CS-HARTLE-HAWKING2010. James Hartle, S.W. Hawking, Thomas Hertog Eternal inflation without metaphysics. arXiv:1009.2525v1 [hep-th].
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CS-HU2010. Ya-Peng Hu Hawking temperature of the cosmological horizon in a FRW universe. arXiv:1007.4044v1 [gr-qc].
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CS-HUANG2015. Qing-Guo Huang, Ke Wang, Sai Wang. The inflation models 2015. arXiv:1512.07769 [astro-ph.CO].
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CS-IJJAS2018. Anna Ijjas, Paul J. Steinhardt. Bouncing Cosmology made simple. arXiv:1803.01961 [astro-ph.CO].
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CS-JOYCE2014. Austin Joyce, Bhuvnesh Jain, Justin Khoury, Mark Trodden. Beyond the Cosmological Standard Model. arXiv:1407.0059 [astro-ph.CO].
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CS-KEHAGIAS2013. Alex Kehagias, Azadeh Moradinezhad Dizgah, Antonio Riotto. Comments on the Starobinsky Model of Inflation and its Descendants. arXiv:1312.1155 [hep-th] (Phys. Rev. D 89, 043527 (2014)).
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CS-KIMKIM2016. Sang Pyo Kim, Won Kim. Will quantum cosmology resurrect chaotic inflation model? arXiv:1603.08087 [gr-qc].
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CS-LINDE2007. Andrei Linde. Inﬂationary Cosmology. arXiv:0705.0164v2 [hep-th].
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CS-LINDE2008. Andrea De Simone, Alan H. Guth, Andrei Linde, Mahdiyar Noorbala, Michael P. Salem, Alexander Vilenkin. Boltzmann brains and the scale-factor cutoff measure of the multiverse. arXiv:0808.3778v2 [hep-th].
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CS-LINDE2009. Andrei Linde, Vitaly Vanchurin. How many universes are in the multiverse? arXiv:0910.1589v1 [hep-th].
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CS-LINDE2010. Andrei Linde, Mahdiyar Noorbala. Measure Problem for Eternal and Non-Eternal Inflation. arXiv:1006.2170 [hep-th].
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CS-LINDE2014. Andrei Linde. Inflationary Cosmology after Planck 2013. arXiv:1402.0526 [hep-th].
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CS-LINDE2015. Andrei Linde. A brief history of the multiverse. arXiv:1512.01203 [hep-th].
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CS-LINDE2017. Andrei Linde. On the problem of initial conditions for inflation. arXiv:1710.04278 [hep-th].
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CS-MARTIN2013. Jerome Martin, Christophe Ringeval, Vincent Vennin Encyclopaedia Inflationaris. arXiv:1303.3787 [astro-ph.CO].
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CS-MARTIN2018. Jerome Martin. The Theory of Inflation. arXiv:1807.11075 [astro-ph.CO].
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CS-ROUKEMA2011. Boudewijn F. Roukema, Tomasz A. Kazimierczak. The size of the Universe according to the Poincare dodecahedral space hypothesis. arXiv:1106.0727v1 [astro-ph.CO].
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CS-PLANCK2013-XVI. Planck Collaboration. Planck 2013 results. XVI. Cosmological parameters arXiv:1303.5062 [astro-ph.CO].
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CS-PLANCK2015-XIII. Planck Collaboration. Planck 2015 results. XIII. Cosmological parameters. arXiv:1502.01589 [astro-ph.CO].
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CS-PLANCK2015-XVIII. Planck Collaboration. Planck 2015 results. XVIII. Background geometry & topology . arXiv:1502.01593 [astro-ph.CO].
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CS-PLANCK2015-XX. Planck Collaboration. Planck 2015 results. XX. Constraints on inflation arXiv:1502.02114 [astro-ph.CO].
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CS-RONG-GEN2017. Rong-Gen Cai, Tao Yang. Standard sirens and dark sector with Gaussian process. arXiv:1709.00837 [astro-ph.CO].
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CS-RUBAKOV2018. V.A. Rubakov. Cosmology. CERN Yellow Report CERN-2017-005-SP pp. 239-294, arXiv:1804.11230 [gr-qc].
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CS-SEN2017. Anto I. Lonappan, Ruchika, Anjan A Sen. Is it time to go beyond ΛCDM universe? arXiv:1705.07336 [astro-ph.CO].
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CS-SENATORE2016. Leonardo Senatore. Lectures on Inflation. arXiv:1609.00716 [hep-th].
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CS-SHAROV2014. G. S. Sharov, E. G. Vorontsova (Тверь). Parameters of cosmological models and recent astronomical observations. arXiv:1407.5405 [gr-qc].
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CS-SOLA2013. Joan Sola Cosmological constant and vacuum energy: old and new ideas. arXiv:1306.1527v1 [gr-qc].
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CS-VALENTINO2016. Eleonora Di Valentino, Laura Mersini-Houghton. Testing Predictions of the Quantum Landscape Multiverse 1: The Starobinsky Inflationary Potential. arXiv:1612.09588 [astro-ph.CO].
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CS-VANCHURIN2010. Mahdiyar Noorbala, Vitaly Vanchurin. Geocentric cosmology: a new look at the measure problem. arXiv:1006.4148v1 [hep-th].
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CS-VIEIRA2011. F. J. Amaral Vieira. Conceptual Problems in Cosmology. arXiv:1110.5634v1 [physics.hist-ph].
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CS-VILENKIN1985. Alexander Vilenkin. Classical and quantum cosmology of the Starobinsky inflationary model. Phys. Rev. D, V32(10), 1985, P.2511-2521.
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CS-VILENKIN2009. Alexander Vilenkin. Perspectives in cosmology. arXiv:0908.0721v1 [astro-ph.CO].
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CS-VILENKIN2011. Alexander Vilenkin. The Principle of Mediocrity. arXiv:1108.4990v1 [hep-th].
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CS-VILENKIN2012. Jaume Garriga, Alexander Vilenkin. Watchers of the multiverse. arXiv:1210.7540 [hep-th].
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CS-WINITZKI2010. Sergei Winitzki. Observability of the total inflationary expansion. arXiv:1003.1680v1 [gr-qc].
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CS-XU2016. Yue-Yao Xu, Xin Zhang. Comparison of dark energy models after Planck 2015. arXiv:1607.06262 [astro-ph.CO].
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CS-ZHAO2016. Wen Zhao, Larissa Santos. Preferred axis in cosmology. arXiv:1604.05484 [astro-ph.CO].
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Cosmic Microvave Background and Cosmology

CSCMB-AFONSO2010. Carlos Marques Afonso, Alfredo Barbosa Henriques, Paulo Vargas Moniz A note on testing pre-inflationary times with gravitational-waves. arXiv:1005.3666v1 [gr-qc].
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CSCMB-AGULLO2009A. Ivan Agullo, Jose Navarro-Salas, Gonzalo J. Olmo, Leonard Parker. Inflation, quantum fields, and CMB anisotropies. arXiv:0909.0026v1 [gr-qc].
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CSCMB-AGULLO2009B. Ivan Agullo, Jose Navarro-Salas, Gonzalo J. Olmo, Leonard Parker. Revising the observable consequences of slow-roll inflation. arXiv:0911.0961v1 [hep-th].
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CSCMB-AGULLO2015. Ivan Agullo. Loop quantum cosmology, non-Gaussianity, and CMB power asymmetry. arXiv:1507.04703 [gr-qc].
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CSCMB-BARDIN1983. James M. Bardin, Paul J. Steinhardt, Michael S. Turner Spontaneous creation of almost scale-free density perturbations in an inflationary universe. Phys. Rev. D, V.28 (1983), No4. P.679-693
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CSCMB-BASKARAN2010. D. Baskaran, L. P. Grishchuk, W. Zhao Relic gravitational waves in the light of 7-year Wilkinson Microwave Anisotropy Probe data and improved prospects for the Planck mission. arXiv:1005.4549v1 [gr-qc].
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CSCMB-BETHKE2011. Laura Bethke, Joao Magueijo Inflationary tensor fluctuations, as viewed by Ashtekar variables and their imaginary friends. arXiv:1104.1800v1 [gr-qc].
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CSCMB-BICEP2-2014. BICEP2 Collaboration: P. A. R Ade (1), R. W. Aikin (2), D. Barkats (3), et al. BICEP2 I: Detection Of B-mode Polarization at Degree Angular Scales. arXiv:1403.3985 [astro-ph.CO]
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CSCMB-BICEP2-LOOPCS-2014. Jaume de Haro, Jaume Amorós. Viability of the matter bounce scenario in Loop Quantum Cosmology from BICEP2 last data. arXiv:1403.6396 [gr-qc]
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CSCMB-BRANDENBERG2011. Robert H. Brandenberger ntroduction to Early Universe Cosmology. PoS(ICFI 2010)001 (arXiv:1103.2271v1 [astro-ph.CO]).
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CSCMB-CABASS2016. Giovanni Cabass, Luca Pagano, Laura Salvati, Martina Gerbino, Elena Giusarma, Alessandro Melchiorri. Updated Constraints and Forecasts on Primordial Tensor Modes. Phys. Rev. D 93, 063508 (2016) (arXiv:1511.05146 [astro-ph.CO]).
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CSCMB-DEBLAS2016. Daniel Martín de Blas, Javier Olmedo. Primordial power spectra for scalar perturbations in loop quantum cosmology. arXiv:1601.01716 [gr-qc].
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CSCMB-DOBELSON2003. Scott Dodelson. Coherent Phase Argument for Inﬂation. arXiv:hep-ph/0309057v1.
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CSCMB-DURRER2011. Ruth Durrer, Jasper Hasenkamp Testing Superstring Theories with Gravitational Waves. Phys. Rev. D 84, 064027 (2011), arXiv:1105.5283v3 [gr-qc].
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CSCMB-EASSON2010. Damien A. Easson, Brian A. Powell Optimizing future experimental probes of inflation. arXiv:1011.0434v1 [astro-ph.CO]
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CSCMB-GUTH1982. Alan H. Guth, So-Youn Pi. Fluctuations in the New Inflationary Universe. Phys. Rev. Letter, V.49, No.15 (1982). P.1110-1113.
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CSCMB-INOUE2010. Kaiki Taro Inoue, Nobuyuki Sakai, Kenji Tomita Evidence of Quasi-linear Super-Structures in the Cosmic Microwave Background and Galaxy Distribution. arXiv:1005.4250v1 [astro-ph.CO].
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CSCMB-KOVETZ2010. Ely D. Kovetz, Assaf Ben-David, Nissan Itzhaki Giant Rings in the CMB Sky. arXiv:1005.3923v1 [astro-ph.CO].
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CSCMB-KUHNEL2010. Florian Kuhnel, Dominik J. Schwarz. Large-Scale Suppression from Stochastic Inflation. arXiv:1003.3014v1 [hep-ph].
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CSCMB-LEON2010. Gabriel Leon, Daniel Sudarsky. The slow roll condition and the amplitude of the primordial spectrum of cosmic fluctuations: Contrasts and similarities of standard account and the "collapse scheme". arXiv:1003.5950v1 [gr-qc].
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CSCMB-LIBANOV-RUBAKOV-RUBTSOV2015. M. Libanov, V. Rubakov, G. Rubtsov. Towards conformal cosmology. arXiv:1508.07728 [gr-qc].
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CSCMB-LINDE2007. Renata Kallosh and Andrei Linde. Testing String Theory with CMB. arXiv:0704.0647v1 [hep-th].
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CSCMB-MALIK2009. Karim A. Malik, David Wands. Cosmological perturbations. Physics Reports 480 (2009) 1-55.
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CSCMB-MAZUMDAR2010. Anupam Mazumdar, Jonathan Rocher. Particle physics models of inflation and curvaton scenarios. arXiv:1001.0993v1 [hep-ph].
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CSCMB-MUKHANOV2003. V. Mukhanov. CMB-slow, or How to Estimate Cosmological Parameters by Hand. arXiv:astro-ph/0303072v1 .
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CSCMB-PENROSE2010. V. G. Gurzadyan, R. Penrose Concentric circles in WMAP data may provide evidence of violent pre-Big-Bang activity. arXiv:1011.3706 [astro-ph.CO].
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CSCMB-PENROSE2013. V. G. Gurzadyan, R. Penrose On CCC-predicted concentric low-variance circles in the CMB sky. arXiv:1302.5162 [astro-ph.CO].
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CSCMB-RENAUX-PETEL2015. Sébastien Renaux-Petel. Primordial non-Gaussianities after Planck 2015: an introductory review. arXiv:1508.06740 [astro-ph.CO].
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CSCMB-TANGEN2010. Kjell Tangen. CMB signature of a super-Hubble inhomogeneity in the gravitational field enclosing the present Hubble volume. arXiv:0910.4164v2 [astro-ph.CO].
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CSCMB-WANG2013. Yi Wang. Inflation, Cosmic Perturbations and Non-Gaussianities. arXiv:1303.1523 [hep-th].
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CSCMB-WHITE1993. Martin White, Lawrence M. Krauss, Joseph Silk. Cosmic Variance in CMB Anisotropies: From $1^{\circ}$ to COBE arXiv:astro-ph/9303009v2
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CSCMB-WMAP2010A. E. Komatsu, K. M. Smith, J. Dunkley, C. L. Bennett, B. Gold, G. Hinshaw, N. Jarosik, D. Larson, M. R. Nolta, L. Page, D. N. Spergel, M. Halpern, R. S. Hill, A. Kogut, M. Limon, S. S. Meyer, N. Odegard, G. S. Tucker, J. L. Weiland, E. Wollack, E. L. Wright Seven-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological Interpretation. arXiv:1001.4538v2 [astro-ph.CO]
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Космология - эксперимент

CSEXP-QUERCELLINI2010. Claudia Quercellini, Luca Amendola, Amedeo Balbi, Paolo Cabella, Miguel Quartin. Real-time Cosmology. arXiv:1011.2646v1 [astro-ph.CO]
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Квантовая космология

CSQ-ALWIS2018. S.P. de Alwis. The Wave Function of the Universe and CMB Fluctuations. arXiv:1811.12892 [hep-th]
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CSQ-ANDERSON2009. Edward Anderson. SMALLEST RELATIONAL MECHANICS MODEL OF QUANTUM COSMOLOGY. arXiv:0908.1983v1 [gr-qc]
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CSQ-ASHTEKAR2016. Abhay Ashtekar. Symmetry Reduced Loop Quantum Gravity: A Bird's Eye View. arXiv:1605.02648 [gr-qc]
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CSQ-BOJOWALD-KIEFER2010. Martin Bojowald, Claus Kiefer, Paulo Vargas Moniz. Quantum cosmology for the 21st century: A debate. arXiv:1005.2471v1 [gr-qc]
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CSQ-BOJOWALD2011. Martin Bojowald. Quantum gravity in the very early universe. arXiv:1109.0248v1 [gr-qc]
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CSQ-BOJOWALD2015. Martin Bojowald. Quantum cosmology: a review. Rep. Prog. Phys. 78 (2015) 023901 (arXiv:1501.04899 [gr-qc])
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CSQ-BOJOWALD2016. Martin Bojowald, Theodore Halnon. Time in quantum cosmology. arXiv:1612.00353 [gr-qc]
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CSQ-COOPERMAN2010. Joshua H. Cooperman Rescuing the Born Rule for Quantum CosmologyY. arXiv:1010.3395v1 [gr-qc]
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CSQ-DEWIIT1967. Bryce S. DeWitt. Quantum Theory of Gravity. I. The canonical theory. Phys. Rev. V.160, No5, P.1113-1148
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CSQ-HARTLE-HAWKING1983. J.B. Hartle, S.W. Hawking. Wave function of the Universe. Phys. Rev. D, V.28(12), 1983, P. 2960-2975
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CSQ-HARTLE-HAWKING2010. James Hartle, S.W. Hawking, Thomas Hertog. The No-Boundary Measure in the Regime of Eternal Inflation. arXiv:1001.0262v1 [hep-th]
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CSQ-HARTLE1990. James B. Hartle (UCSB). The Quantum Mechanics of Cosmology. arXiv:1805.12246 [gr-qc]
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CSQ-HARTLE2018. James B. Hartle. Quantum Multiverses. arXiv:1801.08631 [gr-qc]
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CSQ-HALLIWELL1991. J.J.Halliwell. Introductory Lectures on Quantum Cosmology. arXiv:0909.2566v1 [gr-qc]. (Proceedings of the 1990 Jerusalem Winter School on Quantum Cosmology and Baby Universes}, edited by S.Coleman, J.B.Hartle, T.Piran and S.Weinberg (World Scientific, Singapore, 1991))
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CSQ-PAGE2006. Don N. Page. Introductory Lectures on Quantum Cosmology. arXiv:hep-th/0610121
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CSQ-ROBLES-PEREZ2009. S. Robles-Perez, Y. Hassouni, P. F. Gonzalez-Diaz. Coherent states in the quantum multiverse. arXiv:0909.3063v1 [gr-qc].
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CSQ-ROBLES-PEREZ2010. Salvador Robles-Perez, Pedro F. Gonzalez-Diaz The quantum state of the multiverse. arXiv:1005.2147v1 [gr-qc]
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CSQ-ROVELLI2015. Carlo Rovelli. The strange equation of quantum gravity. arXiv:1506.00927 [gr-qc]
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Петлевая квантовая космология

CSQL-ACHOUR2014. (!! Immirzy parameter = +-i) Jibril Ben Achour, Julien Grain, Karim Noui. Loop Quantum Cosmology with Complex Ashtekar Variables. arXiv:1407.3768 [gr-qc]
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CSQL-AGULLO2013. Ivan Agullo, Alejandro Corichi. Loop Quantum Cosmology. arXiv:1302.3833 [gr-qc]
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CSQL-AGULLO2016. Ivan Agullo, Parampreet Singh. Loop Quantum Cosmology: A brief review. arXiv:1612.01236 [gr-qc]
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CSQL-ASHTEKAR2009A. Abhay Ashtekar, Miguel Campiglia, Adam Henderson. Loop Quantum Cosmology and Spin Foams. arXiv:0909.4221v1 [gr-qc]
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CSQL-ASHTEKAR2009B. Abhay Ashtekar, David Sloan. Loop quantum cosmology and slow roll inflation. arXiv:0912.4093v1 [gr-qc]
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CSQL-ASHTEKAR2010A. Abhay Ashtekar. The Big Bang and the Quantum. arXiv:1005.5491v1 [gr-qc]
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CSQL-ASHTEKAR2011A. Abhay Ashtekar, David Sloan Probability of Inflation in Loop Quantum Cosmology. arXiv:1103.2475v1 [gr-qc]
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CSQL-ASHTEKAR2011B. Abhay Ashtekar, Parampreet Singh. Loop Quantum Cosmology: A Status Report. arXiv:1108.0893v2 [gr-qc]
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CSQL-ASHTEKAR2013. Abhay Ashtekar. Loop Quantum Gravity and the The Planck Regime of Cosmology. arXiv:1303.4989 [gr-qc]
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CSQL-BANERJEE2011. Kinjal Banerjee, Gianluca Calcagni, Mercedes Martín-Benito. Introduction to loop quantum cosmology. arXiv:1109.6801v1 [gr-qc]
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CSQL-BARRAU2009. Aurelien Barrau. Loop quantum gravity and the CMB: toward pre-Big Bounce cosmology. arXiv:0909.4221v1 [gr-qc]
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CSQL-BARRAU2010. Aurelien Barrau. Inflation and Loop Quantum Cosmology. arXiv:1011.5516v1 [gr-qc]
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CSQL-BOJOWALD2008. Martin Bojowald. Loop Quantum Cosmology. Living Rev. Relativity, 11, (2008), 4 http://www.livingreviews.org/lrr-2008-4.
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CSQL-LINSEFORSR2013. Linda Linsefors, Aurelien Barrau. Inflation as a prediction of loop quantum cosmology. arXiv:1301.1264 [gr-qc]
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CSQL-MARUGAN2009. Guillermo A. Mena Marugan. A Brief Introduction to Loop Quantum Cosmology. arXiv:0907.5160v1 [gr-qc].
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CSQL-MIELCZAREK2009. Jakub Mielczarek. The Observational Implications of Loop Quantum Cosmology. arXiv:0908.4329v1 [gr-qc]
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CSQL-WILSON-EWING2016. Edward Wilson-Ewing. Testing loop quantum cosmology. arXiv:1612.04551 [gr-qc]
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CSQL-XIAO2014. Kui Xiao, Xiao-Kai He, Fei Huang, Jian-Yang Zhu Note on Tachyonic Inflation in loop quantum cosmology. arXiv:1405.6367 [gr-qc]
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Темная материя: прямые эксперменты и др.

DMEXP-CAPOZZIELLO2011. S. Capozziello, L. Consiglio, M. De Laurentis, G. De Rosa, C. Di Donato. The missing matter problem: from the dark matter search to alternative hypotheses. arXiv:0912.3592v1 [astro-ph.CO]
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DMEXP-CDMS2009. Z. Ahmed, D.S. Akerib, S. Arrenberg, et al (CDMS collaboration). Results from the Final Exposure of the CDMS II Experiment. arXiv:0912.3592v1 [astro-ph.CO]
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DMEXP-CLOWE2006. Douglas Clowe, Marusa Bradac, Anthony H. Gonzalez, Maxim Markevitch, Scott W. Randall, Christine Jones, Dennis Zaritsky. A direct empirical proof of the existence of dark matter. arXiv:astro-ph/0608407
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DMEXP-HUANG2013. KERSON HUANG. Dark energy and dark matter in a superfluid universe. International Journal of Modern Physics A Vol. 28, No. 28 (2013) 1330049 (23 pages)
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DMEXP-NESTI2012. Fabrizio Nesti, Paolo Salucci The Local Dark Matter Density. arXiv:1212.3670 [astro-ph.CO]
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Нестандартные и обобщенные теории поля: групповые, топологические...

FTNST-ARKANI-HAMED2012. Nima Arkani-Hamed, Jacob L. Bourjaily, Freddy Cachazo, Alexander B. Goncharov, Alexander Postnikov, Jaroslav Trnka Scattering Amplitudes and the Positive Grassmannian. arXiv:1212.5605 [hep-th]
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FTNST-BALACHANDRAN2017. A.P. Balachandran, G. Marmo, B.-S. Skagerstam, A. Stern Gauge Theories and Fibre Bundles - Applications to Particle Dynamics. arXiv:1702.08910 [quant-ph]
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FTNST-BENIOFF2011. Joseph Ben Geloun Classical Group Field Theory. arXiv:1107.3122v2 [hep-th]
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FTNST-KRASNOV2018. Kirill Krasnov. Fermions, differential forms and doubled geometry. arXiv:1803.06160 [hep-th]
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FTNST-SAHA2018. Ashis Saha, Koushik Bar, Sourav Karar, Sunandan Gangopadhyay. Bulk geometry from entanglement entropy of CFT. arXiv:1807.04646 [hep-th]
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Общая физика

GEN-AHLUWALIA2020. Dharam Ahluwalia. Mass Dimenion One Fermions. arXiv:2007.15098 [hep-th] (Cambridge Monographs on Mathematical Physics (Cambridge University Press, July 2019))
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GEN-ANDREKA2012. H. Andréka, J. X. Madarász, I. Németi, G. Székely. What are the numbers in which spacetime? arXiv:1204.1350v1 [gr-qc]
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GEN-ANDREKA2014. H. Andréka, J. X. Madarász, I. Németi, M. Stannett, G. Székely. Faster than light motion does not imply time travel. 2014 Class. Quantum Grav. 31 095005 (arXiv:1407.2528 [gr-qc])
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GEN-BARNES2011. Luke A. Barnes The Fine-Tuning of the Universe for Intelligent Life. arXiv:1112.4647v1 [physics.hist-ph]
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GEN-BAUMELER2017. Ämin Baumeler, Fabio Costa, Timothy C. Ralph, Stefan Wolf, Magdalena Zych. Reversible time travel with freedom of choice. arXiv:1703.00779 [gr-qc]
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GEN-BENIOFF2011. Paul Benioff Effects on quantum physics of the local availability of mathematics and space time dependent scaling factors for number systems. arXiv:1110.1388v1 [quant-ph]
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GEN-BRIHAYE2012. Yves Brihaye, Térence Delsate. Excited DeSitter brane worlds localized by a kink. arXiv:1204.6110v1 [gr-qc]
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GEN-CATTANI2014. Daniele D. Cattani. Maxwell’s equations in four-dimensional notation and the classical magnetic monopoles. Astroparticle Physics 59 (2014) 1–3
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GEN-CHANGWANGLI2011. Zhe Chang, Sai Wang, Xin Li Fine structure constant variation or space-time anisotropy?. [хороший обзор] arXiv:1106.2726v2 [gr-qc]
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GEN-CHU2017. Yi-Zen Chu. Analytical Methods in Physics. arXiv:1701.00776 [math-ph]
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GEN-COLEY2017. Alan A. Coley. Open problems in mathematical physics. Phys. Scr. vol 92, 093003 (2017) [arXiv:1710.02105 [math.HO]]
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GEN-CZACHOR2016. Marek Czachor. Dark energy as a manifestation of nontrivial arithmetic. arXiv:1604.05738 [math-ph]
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GEN-CHIBA2011. Takeshi Chiba The Constancy of the Constants of Nature: Updates. arXiv:1111.0092v1 [gr-qc]
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GEN-CZACHOR2014. Marek Czachor Relativity of arithmetics as a fundamental symmetry of physics. arXiv:1412.8583 [math-ph]
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GEN-DARIANO2010. Giacomo Mauro D'Ariano Physics as quantum information processing. arXiv:1012.2597v1 [quant-ph]
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GEN-DUNKEL2013. Jörn Dunkel, Stefan Hilbert. Consistent thermostatistics forbids negative absolute temperatures. NATURE PHYSICS | ADVANCE ONLINE PUBLICATION | www.nature.com/naturephysics PUBLISHED ONLINE: 8 DECEMBER 2013 | DOI: 10.1038/NPHYS2815
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GEN-DURHAM2018. Ian T. Durham. Global ontologies for relativistic quantum systems and quantum field theory. arXiv:1807.05970 [gr-qc]
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GEN-ELZE2016. Hans-Thomas Elze. Quantum features of natural cellular automata. arXiv:1604.06652 [quant-ph]
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GEN-FEYNMAN1982. Richard P. Feynman Simulating Physics with Computers. International Journal of Theoretical Physics, 1982, V.21, No 6/7, P.467-488.
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GEN-FLOURNOY2015. Casey Cartwright, Alex Flournoy. Background-Independence from the Perspective of Gauge Theory. arXiv:1512.03808 [gr-qc]
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GEN-FRITZSCH2017. Harald Fritzsch, Joan Sola, Rafael C. Nunes. Running vacuum in the Universe and the time variation of the fundamental constants of Nature. arXiv:1605.06104 [hep-ph]
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GEN-GEROCH-HARTLE-1986-2018. Robert Geroch, James B. Hartle. Computability and Physical Theories. Foundations of Physics, 16, 533-550, arXiv:1806.09237 [gr-qc]
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GEN-GRAVDCHR-BASSI2017. Angelo Bassi, André Großardt, Hendrik Ulbricht. Gravitational Decoherence. arXiv:1706.05677 [quant-ph]
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GEN-GRAVDCHR-DAS2017. Saurya Das, Matthew P. G. Robbins, Elias C. Vagenas. Gravitation as a source of decoherence. arXiv:1709.07154 [gr-qc]
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GEN-GUTH2016. Richard Easther, Alan H. Guth, Ali Masoumi. Counting Vacua in Random Landscapes. arXiv:1612.05224 [hep-th]
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GEN-JEJJALA2010. Vishnu Jejjala, Djordje Minic, Y. Jack Ng, Chia-Hsiung Tze. Quantum Gravity and Turbulence. arXiv:1005.3254v1 [gr-qc]
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GEN-HAAS2016. Fernando Haas. Systematic Derivation of Noether Point Symmetries in Special Relativistic Field Theories? arXiv:1603.02910 [physics.gen-ph]
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GEN-HOOFT2014. Gerard 't Hooft. Local Conformal Symmetry: the Missing Symmetry Component for Space and Time. arXiv:1410.6675 [gr-qc]
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GEN-HOOFT2015. Gerard 't Hooft Singularities, horizons, firewalls, and local conformal symmetry. arXiv:1511.04427 [gr-qc]
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GEN-KING2012. Julian A. King, John K. Webb, Michael T. Murphy, Victor V. Flambaum, Robert F. Carswell, Matthew B. Bainbridge, Michael R. Wilczynska, F. Elliot Koch. Spatial variation in the fine-structure constant -- new results from VLT/UVES. arXiv:1202.4758v1 [astro-ph.CO]
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GEN-LANDAU2010. Susana J. Landau, Florencia A. Teppa Pannia, Yuri Bonder, Daniel Sudarsky. Space-time variation of the electron-to-proton mass ratio in a Weyl model. arXiv:1010.6233v1 [astro-ph.CO]
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GEN-LANDULFO2019. Andre G. S. Landulfo, Stephen A. Fulling, George E. A. Matsas. Classical and quantum aspects of the radiation emitted by a uniformly accelerated charge: Larmor--Unruh reconciliation and zero-frequency Rindler modes. arXiv:1907.06665 [gr-qc]
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GEN-LASLO2015. Andras Laszlo. A non-SUSY extension of the Poincaré group. arXiv:1512.03328 [hep-th]
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GEN-LEE2010. Jae-Weon Lee Physics from information. arXiv:1011.1657v1 [hep-th]
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GEN-MAJID2017. Shahn Majid. On the emergence of the structure of Physics. arXiv:1711.00556 [math-ph]
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GEN-MADARASZ2014. J. X. Madarász, G. Székely, M. Stannett. On the Possibility and Consequences of Negative Mass? arXiv:1407.6047 [gr-qc]
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GEN-MARIANO2012. Antonio Mariano, Leandros Perivolaropoulos Is there correlation between Fine Structure and Dark Energy Cosmic Dipoles? arXiv:1206.4055v2 [astro-ph.CO]
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GEN-MARTIN2012. Jerome Martin. Everything You Always Wanted To Know About The Cosmological Constant Problem (But Were Afraid To Ask). arXiv:1205.3365v1 [astro-ph.CO]
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GEN-MARTINS2017. C. J. A. P. Martins. The status of varying constants: a review of the physics, searches and implications. arXiv:1709.02923 [astro-ph.CO]
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GEN-MASANES2012. Lluis Masanes, Markus P. Mueller, Remigiusz Augusiak, David Perez-Garcia. A digital approach to quantum theory. arXiv:1208.0493v1 [quant-ph]
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GEN-MITSKIEVICH2010. Nikolai V. Mitskievich. On a new category of physical effects. arXiv:1002.1421v1 [physics.gen-ph]
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GEN-PALMER2016. T.N.Palmer. Invariant Set Theory. arXiv:1605.01051 [quant-ph]
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GEN-PELISETTO2015. A. Pelissetto, M. Testa. Getting the Lorentz transformations without requiring an invariant speed. arXiv:1504.02423 [gr-qc]
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GEN-RAHMANI2012. H. Rahmani, R. Srianand, N. Gupta, P. Petitjean, P. Noterdaeme, D. Albornoz Vasquez. Constraining the variation of fundamental constants at z ~ 1.3 using 21-cm absorbers. arXiv:1206.2653v1 [astro-ph.CO]
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GEN-ROVELLI2013A. Carlo Rovelli. Why Gauge? arXiv:1308.5599 [hep-th]
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GEN-ROVELLI2013B. Carlo Rovelli. Relative information at the foundation of physics? arXiv:1311.0054 [hep-th]
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GEN-RUBAKOV2013. V. A. Rubakov. Consistent NEC-violation: towards creating a universe in the laboratory. arXiv:1305.2614 [hep-th]
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GEN-SHOSHANY2019. Barak Shoshany. Lectures on Faster-than-Light Travel and Time Travel. arXiv:1907.04178 [gr-qc]
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GEN-TIPLER2005. F. J. Tipler The structure of the world from pure numbers. Rep. Prog. Phys. 68 (2005) 897-964
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GEN-WALL2010. Aron C. Wall The generalized second law forbids singularity resolution, viable baby universes, traversable wormholes, warp drives, time machines, and negative mass objects. arXiv:1010.5513v1 [gr-qc]
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GEN-WEBB2010. J. K. Webb, J. A. King, M. T. Murphy, V. V. Flambaum, R. F. Carswell, M. B. Bainbridge Evidence for spatial variation of the fine structure constant. arXiv:1008.3907v1 [astro-ph.CO]
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ОТО (и обобщения)

GR-ADAMO2013. Tim Adamo, Lionel Mason Conformal and Einstein gravity from twistor actions. arXiv:1307.5043 [hep-th]
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GR-ADM2004. R. Arnowitt (Syracuse Univ.), S. Deser (Brandeis Univ.), C. W. Misner (Princeton Univ.). The Dynamics of General Relativity [Arnowitt-Deser-Misner formulation of GR]. arXiv:gr-qc/0405109v1
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GR-ADM2015. S. Deser. The legacy of ADM. arXiv:1501.03522 [gr-qc]
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GR-AHMEDOV2016. Emil T. Akhmedov Lectures on General Theory of Relativity. arXiv:1601.04996 [gr-qc]
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GR-ALEXANDER2009. Stephon Alexander, Nicolás Yunes. Chern–Simons modified general relativity. Physics Reports 480 (2009) 1-55
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GR-ANDERSON2013. Edward Anderson On Background Independence. arXiv:1310.1524 [gr-qc]
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GR-ANDERSON2015. Edward Anderson Problem of Time: Temporal Relationalism Compatibility of Other Local Classical Facets Completed. arXiv:1506.03517 [gr-qc]
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GR-ASHTEKAR2013. Abhay Ashtekar. The Last 50 Years of General Relativity and Gravitation: From GR3 to GR20 Warsaw Conferences. arXiv:1312.6425 [gr-qc]
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GR-ASHETKAR2014. Abhay Ashtekar, Beverly K. Berger, James Isenberg, and Malcolm A. H. MacCallum. General Relativity and Gravitation: A Centennial Perspective [Предисловие и обзор сборника, посвященного 100-летию ОТО]. arXiv:1409.5823 [gr-qc]
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GR-BABICHEV2016. Eugeny Babichev, Luca Marzola, Martti Raidal, Angnis Schmidt-May, Federico Urban, Hardi Veermäe, Mikael von Strauss. Gravitational Origin of Dark Matter. arXiv:1604.08564 [hep-ph]
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GR-BAMBA2015. Kazuharu Bamba, Katsutaro Shimizu Construction of energy-momentum tensor of gravitation. arXiv:1506.02760 [gr-qc]
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GR-BARBOUR2010. Julian Barbour, Niall Ó Murchadha Conformal Superspace: the configuration space of general relativity. arXiv:1009.3559v1 [gr-qc]
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GR-BARNICH2016. Glenn Barnich, Pujian Mao, Romain Ruzziconi Conserved currents in the Cartan formulation of general relativity. arXiv:1611.01777 [gr-qc]
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GR-BEKENSTEIN1973. Jacob D. Bekenstein. Black holes and etropy. Phys. Rev. D, V. 7(8) (1973), P. 2333-2346
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GR-BERTI2015. Emanuele Berti, Enrico Barausse, Vitor Cardoso, Leonardo Gualtieri, Paolo Pani, Ulrich Sperhake, Leo C. Stein, Norbert Wex, Kent Yagi, Tessa Baker, C. P. Burgess, Flávio S. Coelho, Daniela Doneva, Antonio De Felice, Pedro G. Ferreira, Paulo C. C. Freire, James Healy, Carlos Herdeiro, Michael Horbatsch, Burkhard Kleihaus, Antoine Klein, Kostas Kokkotas, Jutta Kunz, Pablo Laguna, Ryan N. Lang, Tjonnie G. F. Li, Tyson Littenberg, Andrew Matas, Saeed Mirshekari, Hirotada Okawa, Eugen Radu, Richard O'Shaughnessy, Bangalore S. Sathyaprakash, Chris Van Den Broeck, Hans A. Winther, Helvi Witek, Mir Emad Aghili, Justin Alsing, Brett Bolen, Luca Bombelli, Sarah Caudill, Liang Chen, Juan Carlos Degollado, Ryuichi Fujita, Caixia Gao, Davide Gerosa, Saeed Kamali, Hector O. Silva, João G. Rosa, et al. (4 additional authors not shown). Testing General Relativity with Present and Future Astrophysical Observations. arXiv:1501.07274 [gr-qc]
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GR-BELGIORNO2010. F. Belgiorno, S.L. Cacciatori, M. Clerici, V. Gorini, G. Ortenzi, L. Rizzi, E. Rubino, V.G. Sala, D. Faccio Hawking radiation from ultrashort laser pulse filaments. arXiv:1009.4634v1 [gr-qc]
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GR-BONDER2015. Yuri Bonder, Elias Okon, Daniel Sudarsky Comment on "Universal decoherence due to gravitational time dilation". arXiv:1507.05320 [quant-ph]
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GR-CAI2017. Rong-Gen Cai, Zhoujian Cao, Zong-Kuan Guo, Shao-Jiang Wang, Tao Yang The Gravitational Wave Physics. arXiv:1703.00187 [gr-qc]
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GR-CARBALLO-RUBIO2018. Raúl Carballo-Rubio, Francesco Di Filippo, Stefano Liberati. Minimally modified theories of gravity: a playground for testing the uniqueness of general relativity. arXiv:1802.02537 [gr-qc]
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GR-CHAMORRO2011. Alberto Chamorro. On the Meaning of the Principle of General Covariance. arXiv:1106.0394v1 [gr-qc]
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GR-CHRUSCIEL2010. Piotr T. Chruściel, Gregory J. Galloway, Daniel Pollack Mathematical general relativity: a sampler. arXiv:1004.1016v1 [gr-qc]
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GR-COLEY2018. Alan A. Coley. Mathematical General Relativity. arXiv:1807.08628 [gr-qc]
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GR-COMPERE2018. Geoffrey Compère, Adrien Fiorucci. Advanced Lectures in General Relativity. arXiv:1801.07064 [hep-th]
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GR-DATE2010. Ghanashyam Date Lectures on Constrained Systems. arXiv:1010.2062v1 [gr-qc]
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GR-DEBONO2016. Ivan Debono, George F. Smoot General Relativity and Cosmology: Unsolved Questions and Future Directions. arXiv:1609.09781 [gr-qc]
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GR-FADDEEV1982. Л.Д. Фаддеев. Проблема энергии в теории тяготения Эйнштейна. УФН Т.136,вып.3 (1982) С.435-457
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GR-FELICE2010. Antonio De Felice, Shinji Tsujikawa. f(R) theories [см. Living Reviews in Relativity]. arXiv:1002.4928v1 [gr-qc]
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GR-FORMIGA2012. J. B. Formiga, C. Romero. Dirac equation in non-Riemannian geometries. arXiv:1210.1615 [gr-qc]
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GR-FRODDEN2018. Ernesto Frodden, Nicolás Valdés UNRUH EFFECT: Introductory Notes to Quantum Effects for Accelerated Observers. arXiv:1806.11157 [gr-qc]
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GR-GINZBURG1969. В.Л. Гинзбург. Об излучении и силе радиационного трения при равномерно ускоренном движении заряда. УФН, 1969, Т.98, Вып.3, С. 569-585
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GR-GINZBURG1995. В.Л. Гинзбург, Ю.Н. Ерошенко. Еще раз о принципе эквивалентности. УФН, 1995, Т.165, Вып.2, С. 205-211
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GR-GIULINI2015. Domenico Giulini Dynamical and Hamiltonian formulation of General Relativity. arXiv:1505.01403 [gr-qc]
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GR-GOEDEL1949. Kurt Godel. An Example of a New Type of Cosmological Solutions of Einstein's Field Equations of Gravitation. Rev. of Mod. Phys. 1949, V.21, No.3, P.447-450.
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GR-GOLOVNEV2018. Alexey Golovnev. Introduction to teleparallel gravities. arXiv:1801.06929 [gr-qc]
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GR-GRAVITY-PROBE-B-2010. C. W. F. Everitt, D. B. DeBra, B. W. Parkinson, J. P. Turneaure, J. W. Conklin, M. I. Heifetz, G. M. Keiser, A. S. Silbergleit, T. Holmes, J. Kolodziejczak, M. Al-Meshari, J. C. Mester, B. Muhlfelder, V. Solomonik, K. Stahl, P. Worden, W. Bencze, S. Buchman, B. Clarke, A. Al-Jadaan, H. Al-Jibreen, J. Li, J. A. Lipa, J. M. Lockhart, B. Al-Suwaidan, M. Taber, S. Wang Gravity Probe B: Final Results of a Space Experiment to Test General Relativity. arXiv:1105.3456v1 [gr-qc]
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GR-GRYB2010. Sean B. Gryb. A Definition of Background Independence. arXiv:1003.1973v1 [gr-qc]
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GR-GUPTA2017. Patrick Das Gupta. General Relativity for Pedestrians -- First 6 lectures. arXiv:1604.00951 [physics.pop-ph]
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GR-HAWKING1976. S.W. Hawking, A.R. King, P.J. McCarthy. A new topology for curved space-time which incorporates the causal, differential, and conformal structures. J. of Math. Phys. 1976, V. 17, No 2, p.174-181.
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GR-HERFRAY2018. Yannick Herfray. New Avenues for Einstein's Gravity: from Penrose's Twistors to Hitchin's Three-Forms. arXiv:1807.11376 [gr-qc]
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GR-HO2015. Pei-Ming Ho, Takeo Inami Geometry of Area Without Length. arXiv:1508.05569 [hep-th]
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GR-JARAMILLO2010. J.L. Jaramillo, E. Gourgoulhon. Mass and Angular Momentum in General Relativity. arXiv:1001.5429v1 [gr-qc]
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GR-KOKAREV2006. Sergey S. Kokarev, Vladimir G. Krechet. Time-dependent spherically-symmetric 5-D vacuum solutions. arXiv:gr-qc/0611042 v1
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GR-KOPEIKIN2003. E. B. Fomalont, S. M. Kopeikin The Measurement of the Light Deflection from Jupiter: Experimental Results. Astrophys.J. 598 (2003) 704-711 (arXiv:astro-ph/0302294)
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GR-KOSLOWSKI2015. Tim Koslowski. The shape dynamics description of gravity. arXiv:1501.03007 [gr-qc]
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GR-KRASNOV2009. Kirill Krasnov. Plebanski Formulation of General Relativity: A Practical Introduction. arXiv:0904.0423v1 [gr-qc]
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GR-KRASNOV2017. Kirill Krasnov. Gravity and Unification: A review. arXiv:1712.03061 [hep-th]
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GR-LHEISENBERG2018. Lavinia Heisenberg. A systematic approach to generalisations of General Relativity and their cosmological implications. arXiv:1807.01725 [gr-qc]
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GR-MENOTTI2017. Pietro Menotti Lectures on gravitation. arXiv:1703.05155 [gr-qc]
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GR-MERCATI2014. Flavio Mercati A Shape Dynamics Tutorial. arXiv:1409.0105 [gr-qc]
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GR-MOL2017. Igor Mol The Non-Metricity Formulation of General Relativity. arXiv:1406.0737 [physics.gen-ph]
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GR-NATARIO2020. José Natário. Mathematical relativity [теорема о положительной массе]. arXiv:2003.02855 [gr-qc]
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GR-NI2009. Wei-Tou Ni. Searches for the role of spin and polarization in gravity. arXiv:0912.5057v1 [gr-qc]
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GR-NIEH2013. H.T Nieh. A Torsional Topological Invariant. arXiv:1309.0915 [gr-qc]
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GR-NORTON1993. John D. Norton. General covariance and foundations of general relativity: eight decade of dispute. Rep. Prog. Phys. V. 56 (1993), P.791-858.
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GR-NORTON2005. John D. Norton. EINSTEIN, NORDSTRÖM AND THE EARLY DEMISE OF SCALAR, LORENTZ COVARIANT THEORIES OF GRAVITATION Jürgen Renn (ed.), The Genesis of General Relativity Vol. 3: Theories of Gravitation in the Twilight of Classical Physics. Part I. Kluwer Academic Publishers: Printed in the Netherlands, 2005.
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GR-PEREIRA2012. J. G. Pereira Lorentz Connections and Gravitation [неоднозначность связности/кривизны по метрике]. arXiv:1210.0379 [gr-qc]
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GR-PEREIRA2013. J. G. Pereira. Gravitational waves: a foundational review. arXiv:1305.0777v1 [gr-qc]
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GR-PETROV2020. A. Yu. Petrov. Introduction to modified gravity. arXiv:2004.12758 [gr-qc]
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GR-POMMARET2013. Jean-François Pommaret. The mathematical foundations of general relativity revisited. arXiv:1306.2818 [math-ph]
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GR-PONS2010. J. M. Pons, D. C. Salisbury, K. A. Sundermeyer Observables in classical canonical gravity: folklore demystified. arXiv:1001.2726v1 [gr-qc]
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GR-POOLEY2015. Oliver Pooley Background Independence, Diffeomorphism Invariance, and the Meaning of Coordinates. arXiv:1506.03512 [physics.hist-ph]
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GR-REGGE2016. Tullio Regge, Claudio Teitelboim. General Relativity à la string: a progress report. arXiv:1612.05256 [hep-th]
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GR-RUBIN2005. K.A. Bronnikov, S.G. Rubin Self-stabilization of extra dimensions. arXiv:gr-qc/0510107v2 (Phys.Rev. D73 (2006) 124019)
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GR-RUBIN2008. S. G. Rubin Cascade Birth of Universes in Multidimensional Spaces. arXiv:0804.4348v1 [gr-qc] (Phys.Rev. D73 (2006) 124019)
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GR-RUBIN2009. K.A. Bronnikov, S.G. Rubin, I.V. Svadkovsky Multidimensional world, inflation and modern acceleration. arXiv:0912.4862v1 [gr-qc]
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GR-RUBIN2010A. S.G. Rubin On the Origin of Gauge Symmetries and Fundamental Constants. arXiv:1001.0241v1 [gr-qc]
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GR-RUBIN2010B. S.V. Bolokhov, K.A. Bronnikov, S.G. Rubin Extra dimensions as a source of the electroweak model. arXiv:1011.2828v2 [hep-ph]
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GR-RUBIN2011A. S.G. Rubin, A.S. Zinger The universe formation by a space reduction cascade with random initial parameters. arXiv:1101.1274v1 [gr-qc]
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GR-RUBIN2012A. A. A. Kirillov, A. A. Korotkevich, S.G. Rubin Emergence of symmetries. arXiv:1205.1108v1 [gr-qc]
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GR-RUBIN2012B. S.G. Rubin Low energy physics and properties of extra space. arXiv:1212.3692 [gr-qc]
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GR-RUBIN2013A. K.A. Bronnikov, V.N. Melnikov, S.G. Rubin, I.V. Svadkovsky. Nonlinear multidimensional gravity and the Australian dipole. arXiv:1301.3098 [gr-qc]
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GR-RUBIN2013B. A. V. Grobov, S. G. Rubin. Higgs-Like Field and Extra Dimensions. Int J Theor Phys (2013) 52 (arXiv:1312.1140 [gr-qc])
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GR-SMOLIN2015. Lee Smolin. Dynamics of the cosmological and Newton's constant. arXiv:1507.01229 [hep-th]
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GR-SHESTAKOVA2009. T. P. Shestakova. Hamiltonian formulation of General Relativity 50 years after the Dirac celebrated paper: do unsolved problems still exist? arXiv:0911.5252v1 [gr-qc]
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GR-SUDARSKY2005. I. Peña, C. Chryssomalakos, A. Corichi, D. Sudarsky On the puzzle of Bremsstrahlung as described by coaccelerated observers. Phys.Rev. D72 (2005) 084018 (arXiv:gr-qc/0507040)
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GR-TAMBORTINO2011. Johannes Tambornino. Observables in gravity: a review. arXiv:1109.0740v1 [gr-qc]
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GR-TEUKOLSKY2014. Saul A. Teukolsky. The Kerr Metric. arXiv:1410.2130 [gr-qc]
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GR-TIAN2012. Yu Tian, Xiao-Ning Wu, Hongbao Zhang. Poor man's holography: How far can it go?. arXiv:1204.2029v1 [hep-th]
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GR-UNRUHN1976. W. G. Unruh. Notes on black-hole evaporation. Phys. Rev. D, V. 14(4) (1976), P. 870-892
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GR-UZAN2010. Jean-Philippe Uzan Varying constants, Gravitation and Cosmology. arXiv:1009.5514v1 [astro-ph.CO]
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GR-WALTERS2016. Sam Walters How Einstein Got His Field Equations. arXiv:1608.05752 [physics.hist-ph]
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GR-WISE2013. Derek K. Wise. Geometrodynamics and Lorentz symmetry. arXiv:1310.1088 [gr-qc]
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GR-YANG2017. Chao Yang, Yuan-Chuan Zou, Yue-Yang Zhang, Bin Liao, Wei-Hua Lei. Testing the Einstein's equivalence principle with polarized gamma-ray bursts. Mon Not R Astron Soc Lett (2017) 469 (1): L36-L38 (arXiv:1706.00889 [astro-ph.HE])
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GR-ZILHAO2013. Miguel Zilhão, Frank Löffler. An Introduction to the Einstein Toolkit. arXiv:1305.5299 [gr-qc]
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ОТО Эйнштейна-Картана

GRCARTAN-AKHASHABI2017. Siamak Akhshabi, Elham Qorani, Fazeleh Khajenabi. Inflation by spin and torsion in Poincare gauge theory of gravity. EPL, 119 (2017) 29002 (arXiv:1705.04931 [gr-qc])
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GRCARTAN-BONDER2016. Yuri Bonder. Torsion or not torsion, that is the question. arXiv:1604.00067 [gr-qc]
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GRCARTAN-BURINSKII2012. Alexander Burinskii What tells Gravity on the shape and size of an electron. arXiv:1212.2920 [physics.gen-ph]
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GRCARTAN-BURINSKII2014. Alexander Burinskii Emergence of the Dirac Equation in the Solitonic Source of the Kerr Spinning Particle. arXiv:1404.5947v3 [gr-qc]
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GRCARTAN-CEMBRANOS2018. J.A.R. Cembranos, J. Gigante Valcarcel, F.J. Maldonado Torralba. Fermion dynamics in torsion theories. arXiv:1805.09577 [gr-qc]
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GRCARTAN-CHAKRABARTY2019. Subhasish Chakrabarty, Amitabha Lahiri. Different types of torsion and their effect on the dynamics of fields. arXiv:1907.02341 [gr-qc]
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GRCARTAN-CIANFRANI2015. Francesco Cianfrani, Giovanni Montani, Vincenzo Scopelliti Spin connection as Lorentz gauge field: propagating torsion. arXiv:1505.00943 [gr-qc]
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GRCARTAN-CIANFRANI2016. Francesco Cianfrani. Physical states in Quantum Einstein-Cartan Gravity. arXiv:1605.01544 [gr-qc]
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GRCARTAN-COSTA2014. L. Filipe Costa, José Natário Center of mass, spin supplementary conditions, and the momentum of spinning particles. arXiv:1410.6443 [gr-qc]
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GRCARTAN-DERIGLAZOV2015. Alexei A. Deriglazov, Walberto Guzmán Ramírez. Mathisson-Papapetrou-Tulczyjew-Dixon (MPTD) equations in ultra-relativistic regime and gravimagnetic moment. arXiv:1509.05357 [gr-qc]
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GRCARTAN-DIETHER2017. Carl F. Diether III, Joy Christian (Oxford). On the Role of Einstein-Cartan Gravity in Fundamental Particle Physics. arXiv:1705.06036 [gr-qc]
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GRCARTAN-DEITHER2019. Carl F. Diether III, Joy Christian. Existence of Matter as a Proof of the Existence of Gravitational Torsion. arXiv:1903.10902 [gr-qc]
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GRCARTAN-FABBRI2014. Luca Fabbri. A DISCUSSION ON THE MOST GENERAL TORSION-GRAVITY WITH ELECTRODYNAMICS FOR DIRAC SPINOR MATTER FIELDS. arXiv:1409.2007 [gr-qc]
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GRCARTAN-FABBRI2015. Luca Fabbri, Stefano Vignolo A torsional completion of gravity for Dirac matter fields and its applications to neutrino oscillations. arXiv:1504.03545 [gr-qc]
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GRCARTAN-FABBRI2017. Luca Fabbri. Foundations Quadrilogy. arXiv:1703.02287 [gr-qc]
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GRCARTAN-GU2006. Ying-Qiu Gu. The Vierbein Formalism and Energy-Momentum Tensor of Spinors. arXiv:gr-qc/0612106
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GRCARTAN-HADI2016. H. Hadi, Y. Heydarzade, M. Hashemi, F. Darabi. Emergent Cosmos in Einstein-Cartan Theory. arXiv:1605.00552 [gr-qc]
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GRCARTAN-HAGHANI2014. Zahra Haghani, Nima Khosravi, Shahab Shahidi. The Weyl-Cartan Gauss-Bonnet gravity. arXiv:1410.2412 [gr-qc]
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GRCARTAN-HEHL1976. F.W.Hehl, P.Von Der Heyde, G.D.Kerlick General relativity with spin and torsion: Foundations and prospects. Rev. Mod. Phys. 11976, V. 49, No 3, P.393-416
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GRCARTAN-HEHL2011. Peter Baekler (Duesseldorf), Friedrich W. Hehl (Cologne and Columbia, Missouri) Beyond Einstein-Cartan gravity: Quadratic torsion and curvature invariants with even and odd parity including all boundary terms. Class. Quantum Grav. 28 (2011) 215017. [arXiv:1105.3504 [gr-qc]]
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GRCARTAN-HEHL2012A. Milutin Blagojević, Friedrich W. Hehl Gauge Theories of Gravitation (это оглавление и предисловие к сборнику статей, представляющих все поле калибровочных теорий гравитации). arXiv:1210.3775 [gr-qc].
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GRCARTAN-HEHL2012B. Friedrich W. Hehl Gauge Theory of Gravity and Spacetime. arXiv:1204.3672 [gr-qc].
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GRCARTAN-HEHLOBUKHOV2019. Friedrich W. Hehl, Yuri N. Obukhov. Conservation of energy-momentum of matter as the basis for the gauge theory of gravitation. arXiv:1909.01791 [gr-qc]
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GRCARTAN-INGLIS2017. Shaun Inglis, Peter Jarvis. The self-coupled Einstein-Cartan-Dirac equations in terms of Dirac bilinearsю arXiv:1711.04245 [gr-qc]
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GRCARTAN-IOSIFIDIS2020. Damianos Iosifidis. Cosmic Acceleration with Torsion and Non-metricity in Friedmann-like Universes. arXiv:2007.12537 [gr-qc]
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GRCARTAN-IVANOV2016. A. N. Ivanov, M. Wellenzohn. Spin Precession of Slow Neutrons in Einstein-Cartan Gravity with Torsion, Chameleon and Magnetic Field. arXiv:1602.08709 [gr-qc]
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GRCARTAN-IZAURIETA20209. F. Izaurieta, P. Medina, N. Merino, P. Salgado, O. Valdivia. Mimetic Einstein-Cartan-Kibble-Sciama (ECKS) gravity [хороший обзор]. arXiv:2007.07226 [gr-qc]
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GRCARTAN-KAHIL2017. Magd E. Kahil. Spinning and Spinning Deviation Equations for Special Types of Gauge Theories of Gravity. arXiv:1701.04136 [gr-qc]
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GRCARTAN-KAPOOR2020. Richa Kapoor. A review of Einstein Cartan Theory to describe superstrings with intrinsic torsion. arXiv:2009.07211 [hep-th]
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GRCARTAN-KASEM2020. Ammar Kasem, Shaaban Khalil. Gauge-Field-Induced Torsion and Cosmic Inflation. arXiv:2005.06228 [hep-th]
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GRCARTAN-KIESSLING2014. M. K.-H. Kiessling and A. S. Tahvildar-Zadeh. The Dirac point electron in zero-gravity Kerr–Newman spacetime. arXiv:1410.0419 [math-ph]
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GRCARTAN-KHANAPURKAR2018A. Swanand Khanapurkar. The Einstein-Cartan-Dirac theory. arXiv:1803.10621 [gr-qc]
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GRCARTAN-KHANAPURKAR2018B. Swanand Khanapurkar, Tejinder P. Singh. A duality between curvature and torsion. arXiv:1804.00167 [gr-qc]
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GRCARTAN-KHANAPURKAR2018C. Swanand Khanapurkar, Arnab Pradhan, Vedant Dhruv, Tejinder P. Singh. Non-relativistic limit of Einstein-Cartan-Dirac equations. arXiv:1804.04434 [gr-qc]
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GRCARTAN-LOMPAY2013-1. Robert R. Lompay, Alexander N. Petrov. Covariant Differential Identities and Conservation Laws in Metric-Torsion Theories of Gravitation. I. General Consideration [+хороший обзор модифицированный теорий]. arXiv:1306.6887 [gr-qc]
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GRCARTAN-LOMPAY2013-2. Robert R. Lompay, Alexander N. Petrov. Covariant Differential Identities and Conservation Laws in Metric-Torsion Theories of Gravitation. II. Manifestly Generally Covariant Theories. arXiv:1309.5620 [gr-qc]
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GRCARTAN-LOMPAY2014. Robert R. Lompay. On the Energy-Momentum and Spin Tensors in the Riemann-Cartan Space. arXiv:1401.2549 [gr-qc]
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GRCARTAN-LU2016. Jianbo Lu, Guoying Chee. An analytic cosmological solution of Poincare gauge gravity with a pseudoscalar torsion. arXiv:1601.03943 [gr-qc]
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GRCARTAN-LUZ2017. Paulo Luz (Minho U. and Lisbon, CENTRA), Vincenzo Vitagliano (Lisbon, CENTRA). Raychaudhuri equation in spacetimes with torsion. Phys.Rev. D96 (2017) no.2, 024021 (arXiv:1709.07261 [gr-qc]),
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GRCARTAN-LUZ2019. Paulo Luz, Sante Carloni. Static compact objects in Einstein-Cartan theory. arXiv:1907.11489 [gr-qc]
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GRCARTAN-MEDINA2018. Sergio Bravo Medina, Marek Nowakowski, Davide Batic. Einstein-Cartan Cosmologies. Annals of Physics 400 (2019) 64-108 (arXiv:1812.04589 [gr-qc])
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GRCARTAN-MINKEVICH2005. A. V. Minkevich. On gravitational repulsion effect at extreme conditions in gauge theories of gravity. Acta Phys.Polon. B38 (2007) 61-72 [arXiv:gr-qc/0512123]
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GRCARTAN-MINKEVICH2007. A. V. Minkevich, A. S. Garkun, V. I. Kudin. Regular accelerating Universe without dark energy. Class.Quant.Grav.24:5835-5848,2007 [arXiv:0706.1157 [gr-qc]]
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GRCARTAN-MINKEVICH2016. A.V. Minkevich. Relationship of gauge gravitation theory in Riemann-Cartan spacetime and general relativity theory. arXiv:1609.05285 [gr-qc]
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GRCARTAN-MINKEVICH2017A. A.V. Minkevich. Vacuum torsion and regular accelerating Universe without dark matter. arXiv:1704.06077 [gr-qc]
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GRCARTAN-MINKEVICH2017B. A.V. Minkevich. Torsion and gravitational interaction in Riemann-Cartan space-time. arXiv:1709.09035 [gr-qc]
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GRCARTAN-NAKAJIMA2015. Satoshi Nakajima Application of covariant analytic mechanics with differential forms to gravity with Dirac field. arXiv:1510.09048 [gr-qc]
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GRCARTAN-NESTER2016. James M. Nester, Chiang-Mei Chen. Gravity: a gauge theory perspective. arXiv:1604.05547 [gr-qc]
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GRCARTAN-NIKIFOROVA2016. V. Nikiforova, S. Randjbar-Daemi, V. Rubakov. Self-accelerating Universe in modified gravity with dynamical torsion. arXiv:1606.02565 [hep-th]
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GRCARTAN-NIKIFOROVA2017. V. Nikiforova. On the stability of self-accelerating Universe in modified gravity with dynamical torsion. International Journal of Modern Physics A Vol. 32, Nos. 23 & 24 (2017) 1750137 (arXiv:1705.00856 [hep-th])
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GRCARTAN-NIKIFOROVA2017. V. Nikiforova. Stability of self-accelerating Universe in modified gravity with dynamical torsion: the case of small background torsion. arXiv:1711.03718 [hep-th] [hep-th])
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GRCARTAN-OBUKHOV2006. Yuri N. Obukhov. Poincare gauge gravity: selected topics. Int.J.Geom.Meth.Mod.Phys. 3 (2006) 95-138 [arXiv:gr-qc/0601090]
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GRCARTAN-OBUKHOV2014. Yuri N. Obukhov, Alexander J. Silenko, Oleg V. Teryaev. Spin-torsion coupling and gravitational moments of Dirac fermions: theory and experimental bounds. arXiv:1410.6197 [hep-th]
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GRCARTAN-OBUKHOV2016. Dirk Puetzfeld, Yuri N. Obukhov. Generalized deviation equation and determination of the curvature in general relativity. PHYSICAL REVIEW D 93, 044073 (2016)
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GRCARTAN-OBUKHOV2018. Dirk Puetzfeld, Yuri N. Obukhov. Deviation equation in Riemann-Cartan spacetime. arXiv:1804.11106 [gr-qc]
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GRCARTAN-OVGUN2020. Ali Övgün, İzzet Sakallı. Testing Generalized Einstein-Cartan-Kibble-Sciama Gravity using Weak Deflection Angle and Shadow Cast. arXiv:2005.00982 [gr-qc]
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GRCARTAN-PASMATSIOU2016. Klaountia Pasmatsiou, Christos G. Tsagas, John D. Barrow. Kinematics of Einstein-Cartan universes. arXiv:1611.07878 [gr-qc]
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GRCARTAN-PAUL2018. Tanmoy Paul, Soumitra SenGupta. Dynamical suppression of spacetime torsion. arXiv:1808.00172 [gr-qc]
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GRCARTAN-PEREIRA2019. S. H. Pereira, R. C. Lima, J. F. Jesus, R. F. L. Holanda. Acceleration in Friedmann cosmology with torsion. arXiv:1906.07624 [gr-qc]
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GRCARTAN-PETTI2018. R. J. Petti. Translational Spacetime Symmetries in Gravitational Theories. Class. Quantum Grav. 23 (2006) 737-751 [arXiv:1804.06730 [gr-qc]]
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GRCARTAN-PILC2013-I. Marián Pilc. On Einstein-Cartan Theory: I. Kinematical description. arXiv:1311.7360 [gr-qc]
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GRCARTAN-PILC2013-IA. Marián Pilc. Kinematical Hilbert Space for Einstein-Cartan Theory. arXiv:1312.0268 [gr-qc]
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GRCARTAN-POPLAWSKI2009. Nikodem J. Poplawski Spacetime and fields. arXiv:0911.0334v1 [gr-qc]
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GRCARTAN-POPLAWSKI2010A. Nikodem J. Poplawski Nonsingular Dirac particles in spacetime with torsion. Physics Letters B, V. 690, Issue 1, 2010, P. 73–77
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GRCARTAN-POPLAWSKI2010B. Nikodem J. Poplawski Cosmology with torsion: An alternative to cosmic inflation. Phys.Lett.B694:181-185,2010, P. 73–77 [arXiv:1007.0587 [astro-ph.CO]]
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GRCARTAN-POPLAWSKI2012A. Nikodem J. Poplawski Affine theory of gravitation. arXiv:1203.0294 [gr-qc]
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GRCARTAN-POPLAWSKI2012B. Nikodem J. Poplawski Gravity with spin excludes fermionic strings. arXiv:1209.5772 [hep-th]
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GRCARTAN-POPLAWSKI2013A. Nikodem Poplawski. Intrinsic spin requires gravity with torsion and curvature. arXiv:1304.0047 [gr-qc]
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GRCARTAN-POPLAWSKI2013B. Nikodem Poplawski. Energy and momentum of the Universe. arXiv:1305.6977 [gr-qc]
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GRCARTAN-POPLAWSKI2013C. Nikodem Poplawski. Schwinger's principle in Einstein-Cartan gravity. arXiv:1310.8014 [gr-qc]
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GRCARTAN-POPLAWSKI2014. Nikodem J. Poplawski. Universe in a black hole with spin and torsion. arXiv:1410.3881 [gr-qc]
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GRCARTAN-POPLAWSKY2015. Nikodem J. Poplawski Kinetization of scalar field by torsion. arXiv:1512.09365 [gr-qc]
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GRCARTAN-POPLAWSKY2017. Nikodem Popławski Uncertainty relation for momentum with torsion. arXiv:1712.09997 [gr-qc]
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GRCARTAN-POPLAWSKY2017v4. Nikodem Popławski Uncertainty principle for momentum, torsional regularization, and bare charge (v4 предыдущей статьи, фактически - новая статья). arXiv:1712.09997 [gr-qc]
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GRCARTAN-POPLAWSKY2018. Gabriel Unger, Nikodem Popławski. Big bounce and closed universe from spin and torsion. arXiv:1808.08327 [gr-qc]
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GRCARTAN-SEN2015. Sarani Chakrabortya, A. K. Sen Effect of gravomagnetism on the trajectory of light ray. arXiv:1511.07355 [gr-qc]
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GRCARTAN-SINGH2015. Tejinder P. Singh General relativity, torsion, and quantum theory. arXiv:1512.06982 [gr-qc]
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GRCARTAN-SHAPIRO2014. Ilya L. Shapiro, Poliane M. Teixeira. Quantum Einstein-Cartan theory with the Holst term. arXiv:1402.4854 [gr-qc]
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GRCARTAN-SHAPOSHNIKOV2020 Mikhail Shaposhnikov, Andrey Shkerin, Inar Timiryasov, Sebastian Zell. Einstein-Cartan Portal to Dark Matter. arXiv:2008.11686 [hep-ph]
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GRCARTAN-SHARMA2014. Anushrut Sharma, Tejinder P. Singh. How the quantum emerges from gravity. arXiv:1405.3915 [gr-qc]
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GRCARTAN-TECCHIOLI2020. Manuel Tecchiolli. On the Mathematics of Coframe Formalism and Einstein-Cartan Theory. Universe 2019, 5(10), 206 (arXiv:2008.08314 [math-ph])
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Биметрические и массивные теории гравитации

GRBIMETRIC-SCHMIDT2015. Angnis Schmidt-May, Mikael von Strauss. Recent developments in bimetric theory. arXiv:1512.00021 [hep-th]
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ОТО Эйнштейна-Картана, эксперимент

GRCARTAN-ABELE-2015. Hartmut Abele, Andrei Ivanov, Tobias Jenke, Mario Pitschmann, Peter Geltenbort Gravity Resonance Spectroscopy and Einstein-Cartan Gravity. arXiv:1510.03063 [gr-qc]
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GRCARTAN-HAMMOND-2014. Richard T Hammond Spin flip probability of electron due to torsional wave. arXiv:1406.2965 [gr-qc]
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GRCARTAN-HOJMAN-2016. Sergio A. Hojman, Felipe A. Asenjo Spinning particles coupled to gravity. arXiv:1610.08719 [gr-qc]
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GRCARTAN-LENHERT-2013. Ralf Lehnert, H. Yan, W.M. Snow A First Experimental Limit on In-matter Torsion from Neutron Spin Rotation in Liquid He-4. Phys. Lett. B730 (2014) 353-356 (arXiv:1311.0467) [gr-qc]
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GRCARTAN-LUCAT-2017. Stefano Lucat, Tomislav Prokopec. Observing Geometrical Torsion. arXiv:1705.00889 [gr-qc]
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Принцип эквивалентности

+GREQU-HAUGAN2001. Mark P. Haugan, C. Lämmerzahl. Principles of Equivalence: Their Role in Gravitation Physics and Experiments that Test Them. Gyros, Clocks, Interferometers...: Testing Relativistic Gravity in Space, Lecture Notes in Physics, Volume 562. ISBN 978-3-540-41236-6. Springer-Verlag Berlin Heidelberg, 2001, p. 195-212 [arXiv:gr-qc/0103067]
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GREQU-HARI-DASS1977. N. D. Hari Dass. A new spin test for the equivalence principle. General Relativity and Gravitation, Volume 8, Issue 2, pp.89-93 (1977) DOI:10.1007/BF00770727
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+GREQU-LAMMERZAHL2003. C. Lämmerzahl. The Einstein equivalence principle and the search for new physics. In: D. J. W., Kiefer, C. and Lämmerzahl, C., eds., Quantum Gravity: From Theory to Experimental Search, Lecture Notes in Physics, 631, pp. 367–394, (Springer, Berlin; New York, 2003).
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GREQU-LEBEDEV2019. Andrei G. Lebed. Breakdown of the equivalence between gravitational mass and energy due to quantum effects. arXiv:1910.03694 [gr-qc]
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GREQU-PERES1978. Peres, Asher. Test of equivalence principle for particles with spin. Physical Review D (Particles and Fields), Volume 18, Issue 8, 15 October 1978, pp.2739-2740
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GREQU-SONEGO1993. S. Sonego, V. Faraoni. Coupling to the curvature for a scalar field from the equivalence principle. Classical and Quantum Gravity, Volume 10, Issue 6, pp. 1185-1187 (1993).
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+GREQU-SONEGO2015. Eolo Di Casola, Stefano Liberati, Sebastiano Sonego. Nonequivalence of equivalence principles. American Journal of Physics, Volume 83, Issue 1, p.39-46 (2015) [arXiv:1310.7426 [gr-qc]]
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GREQU-TINO2020. G. M. Tino, L. Cacciapuoti, S. Capozziello, G. Lambiase, F. Sorrentino. Precision Gravity Tests and the Einstein Equivalence Principle. arXiv:2002.02907 [gr-qc]
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+GREQU-WILL2014. Clifford M. Will. The Confrontation between General Relativity and Experiment. Living Rev. Relativity, 17, (2014), 4; http://www.livingreviews.org/lrr-2014-4; doi:10.12942/lrr-2014-4
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Нарушение принципа эквивалентности

Horava-Lifshiz theory

GRHL-HORAVA2009. Petr Horava. Quantum gravity at a Lifshitz point. PHYSICAL REVIEW D 79, 084008 (2009)
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GRHL-MUKOHYAMA2010. Shinji Mukohyama. Horava-Lifshitz Cosmology: A Review. arXiv:1007.5199v2 [hep-th]
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GRHL-SOTIRIOU2009. Thomas P. Sotiriou, Matt Visser, Silke Weinfurtner. Phenomenologically viable Lorentz-violating quantum gravity. arXiv:0904.4464v3 [hep-th]
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ОТО как калибровочная теория

GRG-BATAKIS1997. Nikolaos A. Batakis, Friedrich W. Hehl. General relativity reformed to a genuine Yang-Mills gauge theory for gravity. arXiv:gr-qc/9711054v1
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GRG-BLAGOEVIC2012. Milutin Blagojević, Friedrich W. Hehl Gauge Theories of Gravitation. arXiv:1210.3775 [gr-qc]
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GRG-BLAGOEVIC2018. Milutin Blagojević, Branislav Cvetković. General Poincaré gauge theory: Hamiltonian structure and particle spectrum. Phys. Rev. D 98, 024014 (2018) [arXiv:1804.05556 [gr-qc]]
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GRG-CANTCHEFF2000. M. Botta Cantcheff. General Relativity as a (constrained) Yang-Mills’s Theory and a Novel Gravity with Torsion. arXiv:gr-qc/0010080v3
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GRG-CHAMSEDDINE-MUKHANOV2016. Ali H. Chamseddine, Viatcheslav Mukhanov. On Unification of Gravity and Gauge Interactions. arXiv:1602.02295 [hep-th]
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GRG-CHEN2020. Bo-Hung Chen, Dah-Wei Chiou. Parallel between the Riemann curvature and the Cartan torsion in metric-affine gauge theory of gravity. arXiv:2008.07750 [gr-qc]
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GRG-FUKAYA2018. Hidenori Fukaya. Why is quantum gravity so difficult (compared to QCD)?. arXiv:1811.11577 [gr-qc]
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GRG-FUKUYAMA2009. Takeshi Fukuyama. Gravitational Field as a Generalized Gauge Field Revisited. arXiv:0902.3283v1 [gr-qc]
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GRG-GAITAN2001. Rolando Gaitan D. A Possible Gauge Formulation for Gravity? arXiv:gr-qc/0109079v3
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GRG-GAMBINI2018. Rodolfo Gambini, Jorge Pullin. Gravitation in terms of observables. arXiv:1802.02661 [gr-qc]
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GRG-GRONWALD1996. Frank Gronwald. On the Gauge Aspects of Gravity. arXiv:gr-qc/9602013v1
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GRG-HAMMOND2019. Richard T Hammond. Gravity with spin and electromagnetism with a nonsymmetric metric tensor. arXiv:1901.05418 [gr-qc]
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GRG-KRASNOV2011A. Kirill Krasnov. Gravity as a diffeomorphism invariant gauge theory. arXiv:1101.4788v1 [hep-th]
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GRG-KRASNOV2011B. Kirill Krasnov. New Action Principle for General Relativity. Abstract: General Relativity can be reformulated as a diffeomorphism invariant SU(2) gauge theory. A new action principle for this "pure connection" formulation of GR is described.
arXiv:1103.4498v1 [gr-qc]
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GRG-KRASNOV2012. Kirill Krasnov. A Gauge Theoretic Approach to Gravity.
arXiv:1202.6183v1 [gr-qc]
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GRG-LOLL1993. R. Loll. LOOP VARIABLE INEQUALITIES IN GRAVITY AND GAUGE THEORY. arXiv:gr-qc/9303028v1
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GRG-MOFFAT1994. J. W. Moffat. Gauge Theory of Quantum Gravity. arXiv:gr-qc/9401001v1
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GRG-OBUKHOV2018. Yuri N. Obukhov. Poincaré gauge gravity: An overview. arXiv:1805.07385 [gr-qc]
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GRG-OBUKHOV2020. Yuri N. Obukhov, Friedrich W. Hehl. General relativity as a special case of Poincaré gauge gravity. arXiv:2007.00043 [gr-qc]
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GRG-RADENKOVIC2019. Tijana Radenkovic, Marko Vojinovic. Higher Gauge Theories Based on 3-groups. arXiv:1904.07566 [hep-th]
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GRG-RANDONO2010. Andrew Randono. Gauge Gravity: a forward-looking introduction. arXiv:1010.5822v1 [gr-qc]
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GRG-REQUARDT2012. Manfred Requardt. Gravitons as Goldstone Modes and the Spontaneous Symmetry Breaking of Diffeomorphism Invariance. arXiv:1203.1702v1 [gr-qc]
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GRG-SANTOS2019. Wytler Cordeiro dos Santos. Introduction to Gauge Theory of Gravitation. arXiv:1905.08113 [gr-qc]
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GRG-SARDANASHVILY2005. G.Sardanashvily. Gauge gravitation theory from the geometric viewpoint. arXiv:gr-qc/0512115v2
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GRG-SARDANASHVILI2011. G. Sardanashvily. Classical gauge gravitation theory. arXiv:1110.1176v1 [math-ph]
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GRG-SARDANAZHVILI2016. G. Sardanashvily. Lecture on Gauge Gravitation Theory. Gravity as a Higgs Field. arXiv:1602.06776 [math-ph]
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GRG-TSENG2018. Huan-Hsin Tseng. Gravitational Theories with Torsion. arXiv:1812.00314 [gr-qc]
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GRG-UTIYAMA1956. Ryoyu Utiyama. Invariant Theoretical Interpretation of Interaction. Phys. Rev. V.101(5) (1956)
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GRG-WEATHERALL2014. James Owen Weatherall Fiber Bundles, Yang-Mills Theory, and General Relativity. arXiv:1411.3281 [physics.hist-ph]
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GRG-WHEELER2018. James T Wheeler. General relativity as a biconformal gauge theory. arXiv:1808.07083 [gr-qc]
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GRG-WU2001A. Ning Wu. Gauge Theory of Gravity. arXiv:hep-th/0109145v4
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GRG-WU2001B. Ning Wu. Qantum Gauge Theory of Gravity. arXiv:hep-th/0112062v2
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GRG-WU2002. Ning Wu, Zhan Xu, Dahua Zhang. Differential Geometrical Formulation of Gauge Theory of Gravity. arXiv:hep-th/0201131v1
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Гравитомагнетизм

RUGGIERO-2015. Matteo Luca Ruggiero. Gravitomagnetic Field of Rotating Rings. arXiv:1507.06797 [gr-qc].
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Shape dynamics

GRSHD-DUNDAR2015. Furkan Semih Dündar, Baris Tamer Tonguc. Emergence of Spacetime in Quantum Shape Dynamics. arXiv:1511.09197 [gr-qc].
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GR-KOSLOWSKI2015. Tim Koslowski. The shape dynamics description of gravity. arXiv:1501.03007 [gr-qc]
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Взаимодействие спина с гравитационным полем (плюс гравитационная оптика)

GRSPIN-AFKHAMI2018. Nima Afkhami-Jeddi, Sandipan Kundu, Amirhossein Tajdini. A Bound on Massive Higher Spin Particles. arXiv:1811.01952 [hep-th]
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GRSPIN-AKAGI2018. Satoshi Akagi. Bottom-up approach to massive spin-two theory in arbitrary curved spacetime. arXiv:1810.02065 [hep-th]
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GRSPIN-ARMINJON2011. Mayeul Arminjon, Frank Reifler. Classical-quantum correspondence and wave packet solutions of the Dirac equation in a curved spacetime. J. of Geometry & Symmetry in Physics 24 (2011) pp. 77-88 [arXiv:1109.6649 [gr-qc]]
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GRSPIN-ASENJO2016. Felipe A. Asenjo, Sergio A. Hojman. Do electromagnetic waves always propagate along null geodesics? [VERY IMPORTANT] arXiv:1608.06572 [gr-qc] (Classical and Quantum Gravity, Volume 34, Number 20)
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GRSPIN-ASENJO2018. Sergio A. Hojman, Felipe A. Asenjo. The spin effect on the circular motion of massive bodies and the violation of the Equivalence Principle. arXiv:1803.03873 [gr-qc]
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GRSPIN-BATISTA2020. Carlos Batista, Esdras Barbosa dos Santos. On Conserved Quantities for the Free Motion of Particles with Spin. arXiv:2004.02966 [gr-qc]
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GRSPIN-CEMBRANOS2018. J.A.R. Cembranos, J. Gigante Valcarcel, F.J. Maldonado Torralba. Fermion dynamics in torsion theories. arXiv:1805.09577 [gr-qc]
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GRSPIN-CHAKRABARTY2019. Subhasish Chakrabarty, Amitabha Lahiri. Geometrical contribution to neutrino mass matrix. arXiv:1904.06036 [hep-ph]
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GRSPIN-CIANCI2019. Roberto Cianci, Luca Fabbri, Stefano Vignolo. Axially-Symmetric Exact Solutions for Majorana Fermions with Gravity. arXiv:1904.08640 [gr-qc]
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GRSPIN-COLLAS2018. Peter Collas, David Klein. The Dirac equation in general relativity, a guide for calculations. arXiv:1809.02764 [gr-qc]
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GRSPIN-DAI2018. Yue Dai, Yu Shi. Kinetic Spin Decoherence in a Gravitational Field. arXiv:1811.06947 [gr-qc]
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GRSPIN-DAVARI2019. Zahra Davari, Valerio Marra, Mohammad Malekjani. Cosmological constrains on minimally and non-minimally coupled scalar field models [IMPORTANT! актуальные неминимальные модели скалярного поля]. arXiv:1911.00209 [gr-qc]
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GRSPIN-Dolan2018. Sam R Dolan. Geometrical optics for scalar, electromagnetic and gravitational waves in curved spacetime. Int. J. Mod. Phys. D 1843010 (2018) [arXiv:1806.08617 [gr-qc]]
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GRSPIN-FENG2019. Longlong Feng, Qianfan Wu. Detect Gravitational Waves Using Twisted Light - Dipole Interaction of Photons and Gravitational Waves. arXiv:1904.05380 [gr-qc]
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GRSPIN-FREDSTED2018. John Fredsted. Spinors and gravity without Lorentz indices. arXiv:1811.00377 [gr-qc]
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GRSPIN-GARCIA2018. Javier Faba García, Carlos Sabín. Dirac equation in exotic space-times. arXiv:1811.00385 [gr-qc]
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GRSPIN-GONCALVES2019. Rodrigo S. Gonçalves, Susana Landau, Jailson S. Alcaniz, Rodrigo F. L. Holanda. Variation in the fine-structure constant, distance-duality relation and the next generation of high-resolution spectrograph [Непостоянство альфа нарушает DDR distance duality relation (DDR), which holds true as long as photons travel on unique null geodesics]. arXiv:1907.02118 [astro-ph.CO]
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GRSPIN-GRALLA2019A. Samuel E. Gralla, Alexandru Lupsasca. Lensing by Kerr Black Holes. arXiv:1910.12873 [gr-qc]
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GRSPIN-GRALLA2019B. Samuel E. Gralla, Alexandru Lupsasca. The Null Geodesics of the Kerr Exterior. arXiv:1910.12881 [gr-qc]
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GRSPIN-GRASSO2018. Michele Grasso, Mikołaj Korzyński, Julius Serbenta. Geometric optics in general relativity using bilocal operators. arXiv:1811.10284 [gr-qc]
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GRSPIN-HARTE2018. Abraham I. Harte. Gravitational lensing beyond geometric optics: I. Formalism and observables. arXiv:1808.06203 [gr-qc]
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GRSPIN-HEES2019. A. Hees, O. Minazzoli, E. Savalle, Y. V. Stadnik, P. Wolf, B. Roberts. Violation of the equivalence principle from light scalar fields: from Dark Matter candidates to scalarized black holes. arXiv:1905.08524 [gr-qc]
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GRSPIN-JORA2019. Renata Jora. Note about the spin connection in general relativity [ВАЖНО!]. arXiv:1911.05283 [gr-qc]
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GRSPIN-KONTOU2020. Eleni-Alexandra Kontou, Ko Sanders. Energy conditions in general relativity and quantum field theory. arXiv:2003.01815 [hep-th]
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GRSPIN-LEWKOWICZ2018. M. Lewkowicz, M.A.Zubkov. Classical limit for Dirac fermions with modified action in the presence of the black hole. arXiv:1906.11707 [gr-qc]
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GRSPIN-MARSOT2018. Christian Duval, Loic Marsot, Thomas Schucker. Gravitational birefringence of light in Schwarzschild spacetime [Очень важные ссылки]. arXiv:1812.03014 [gr-qc]
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GRSPIN-MARSOT2019. Loïc Marsot. How does the photon's spin affect Gravitational Wave measurements?. arXiv:1904.09260 [gr-qc]
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GRSPIN-MASHHOON2000. Bahram Mashhoon. Gravitational Couplings of Intrinsic Spin. Class.Quant.Grav. 17 (2000) 2399-2410 [arXiv:gr-qc/0003022]
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GRSPIN-Oancea2020. Marius A. Oancea, Jérémie Joudioux, I. Y. Dodin, D. E. Ruiz, Claudio F. Paganini, Lars Andersson. The gravitational spin Hall effect of light. arXiv:2003.04553 [gr-qc]
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GRSPIN-OBUKHOV2009. Yuri N. Obukhov, Alexander J. Silenko, Oleg V. Teryaev. Spin dynamics in gravitational fields of rotating bodies and the equivalence principle. arXiv:0907.4367 [gr-qc]
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GRSPIN-OBUKHOV2019. Yuri N. Obukhov. Spin in gravitational and electromagnetic fields. arXiv:1904.00181 [gr-qc]
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GRSPIN-ONO2018. Toshiaki Ono, Asahi Ishihara, Hideki Asada. Deflection angle of light for an observer and source at finite distance from a rotating wormhole. (Phys. Rev. D 98, 044047 (2018)) arXiv:1806.05360 [gr-qc]
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GRSPIN-PLYATSKO2019. Roman Plyatsko, Mykola Fenyk. On physics of a highly relativistic spinning particle in the gravitational field. arXiv:1905.04342 [gr-qc]
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GRSPIN-PRINZ2018. David Prinz. Algebraic Structures in the Coupling of Gravity to Gauge Theories. arXiv:1812.09919 [hep-th]
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GRSPIN-SALAS2020. Christian P. H. Salas. Proving the Relativistic Rotation Paradox. arXiv:2007.12686 [gr-qc]
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GRSPIN-SBITNEV2019. Valeriy I. Sbitnev. Quaternion algebra on 4D superfluid quantum space-time. Gravitomagnetism. arXiv:1901.09098 [gr-qc] [hep-th]
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GRSPIN-SCHNEITER2018. Fabienne Schneiter, Dennis Rätzel, Daniel Braun. Rotation of polarization in the gravitational field of a laser beam - Faraday effect and optical activity. arXiv:1812.04505 [gr-qc]
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GRSPIN-SHOOM2011. Valeri P. Frolov, Andrey A. Shoom. Spinoptics in a stationary spacetime [ВАЖНО!]. arXiv:1105.5629 [gr-qc], Phys.Rev.D84:044026,2011
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GRSPIN-SHOOM2012. Valeri P. Frolov, Andrey A. Shoom. Scattering of circularly polarized light by a rotating black hole [ВАЖНО!]. arXiv:1205.4479 [gr-qc], Phys. Rev. D 86, 024010, 2012
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GRSPIN-SHOOM2020. Andrey A. Shoom. Gravitational Faraday and Spin-Hall Effects of Light [ВАЖНО!]. arXiv:2006.10077 [gr-qc]
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GRSPIN-SHOOM-FROLOV2020. Valeri P. Frolov. Maxwell equations in a curved spacetime: Spin optics approximation [ВАЖНО! Хороший обзор]. arXiv:2007.03743 [gr-qc]
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GRSPIN-SINGH2020. Meghraj M S, Abhishek Pandey, Tejinder P. Singh. Why does the Kerr-Newman black hole have the same gyromagnetic ratio as the electron? arXiv:2006.05392 [gr-qc]
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GRSPIN-SOCAS-NAVARRO2019. Hector Socas-Navarro. Can a negative-mass cosmology explain dark matter and dark energy? arXiv:1902.08287 [astro-ph.CO]
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GRSPIN-STRITZELBERGER2019. Nadine Stritzelberger. Is there weak birefringence of light in vacuo? arXiv:1905.06941 [gr-qc]
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GRSPIN-TERNO2018. Daniel R. Terno, Francesco Vedovato, Matteo Schiavon, Alexander R. H. Smith, Piergiovanni Magnani, Giuseppe Vallone, Paolo Villoresi. Proposal for an Optical Test of the Einstein Equivalence Principle (как раз спин-то здесь и ни при чем). arXiv:1811.04835 [gr-qc]
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GRSPIN-WANG2018. Zhen-Lai Wang, Xiang-Song Chen. Gravity-induced geometric spin Hall effect as a probe of universality of free fall of quantum waves. arXiv:1805.01263 [gr-qc]
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GRSPIN-WEATHERALL2018. James Owen Weatherall. Geometry and Motion in General Relativity. arXiv:1810.09046 [physics.hist-ph]
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GRSPIN-WEI2020. Jun-Jie Wei, Xue-Feng Wu. Testing the Weak Equivalence Principle and Lorentz Invariance with Multiwavelength Polarization Observations of GRB Optical Afterglows [ВАЖНО!]. arXiv:2006.11528 [astro-ph.HE]
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GRSPIN-ZHIDKOVA2018. С. М. Жидкова. Неминимальные скалярные теории в формализме Палатини. УЧЕНЫЕ ЗАПИСКИ ФИЗИЧЕСКОГО ФАКУЛЬТЕТА МОСКОВСКОГО УНИВЕРСИТЕТА No 4, 1841401 (2018)
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Гравитационные волны

GRWAVE-LIGO2016A. The LIGO Scientific Collaboration, the Virgo Collaboration. Observation of Gravitational Waves from a Binary Black Hole Merger. Physical Review Letters 116, 061102 (2016), arXiv:1602.03837 [gr-qc]
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GRWAVE-LIGO2016B. The LIGO Scientific Collaboration, the Virgo Collaboration. GW150914: The Advanced LIGO Detectors in the Era of First Discoveries. arXiv:1602.03838 [gr-qc]
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GRWAVE-LIGO2016C. The LIGO Scientific Collaboration, the Virgo Collaboration. GW150914: First results from the search for binary black hole coalescence with Advanced LIGO. arXiv:1602.03839 [gr-qc]
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GRWAVE-LIGO2016C. The LIGO Scientific Collaboration, the Virgo Collaboration. Properties of the binary black hole merger GW150914. arXiv:1602.03840 [gr-qc]
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GRWAVE-LIGO2016C. The LIGO Scientific Collaboration, the Virgo Collaboration. Tests of general relativity with GW150914. arXiv:1602.03841 [gr-qc]
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GRWAVE-LIGO2016C. The LIGO Scientific Collaboration, the Virgo Collaboration. Observing gravitational-wave transient GW150914 with minimal assumptions. arXiv:1602.03843 [gr-qc]
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GRWAVE-LIGO2016C. The LIGO Scientific Collaboration, the Virgo Collaboration. Characterization of transient noise in Advanced LIGO relevant to gravitational wave signal GW150914. arXiv:1602.03844 [gr-qc]
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GRWAVE-LIGO2016C. The LIGO Scientific Collaboration, the Virgo Collaboration. Calibration of the Advanced LIGO detectors for the discovery of the binary black-hole merger GW150914. arXiv:1602.03845 [gr-qc]
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GRWAVE-LIGO2016C. The LIGO Scientific Collaboration, the Virgo Collaboration. GW150914: Implications for the stochastic gravitational wave background from binary black holes. arXiv:1602.03847 [gr-qc]
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GRWAVE-LIGO2016C. B. P. Abbott, R. Abbott, T. D. Abbott, ... (The LIGO Scientific Collaboration, the Virgo Collaboration.) The Rate of Binary Black Hole Mergers Inferred from Advanced LIGO Observations Surrounding GW150914. arXiv:1602.03842 [astro-ph.HE]
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GRWAVE-LIGO2016C. The LIGO Scientific Collaboration, the Virgo Collaboration. Astrophysical Implications of the Binary Black-Hole Merger GW150914. arXiv:1602.03846 [astro-ph.HE]
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GRWAVE-LIGO2016D. The LIGO Scientific Collaboration, the Virgo Collaboration, and many other collabotations as well (383 institutions). Localization and broadband follow-up of the gravitational-wave transient GW150914. arXiv:1602.08492 [astro-ph.HE]
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GRWAVE-LIGO2016E. LIGO Scientific Collaboration, the Virgo Collaboration. GW151226: Observation of Gravitational Waves from a 22-Solar-Mass Binary Black Hole Coalescence. arXiv:1606.04855 [gr-qc]
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GRWAVE-LIGO2016F. LIGO Scientific Collaboration, the Virgo Collaboration. Binary Black Hole Mergers in the first Advanced LIGO Observing Run. arXiv:1606.04856 [gr-qc]
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GRWAVE-LIGO2016G. LIGO Scientific Collaboration, the Virgo Collaboration. The basic physics of the binary black hole merger GW150914. arXiv:1608.01940 [gr-qc]
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GRWAVE-LIGO2018A. LIGO Scientific Collaboration, the Virgo Collaboration. GWTC-1: A Gravitational-Wave Transient Catalog of Compact Binary Mergers Observed by LIGO and Virgo during the First and Second Observing Runs. arXiv:1811.12907 [astro-ph.HE]
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GRWAVE-LIGO2018B. LIGO Scientific Collaboration, the Virgo Collaboration. GWTC-1: A Gravitational-Wave Transient Catalog of Compact Binary Mergers Observed by LIGO and Virgo during the First and Second Observing Runs. Phys. Rev. X 9, 031040 (2019) [arXiv:1811.12907 [astro-ph.HE]]
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GRWAVE-LI2016. Xiang Li, Fu-Wen Zhang, Qiang Yuan, Zhi-Ping Jin, Yi-Zhong Fan, Si-Ming Liu, Da-Ming Wei. Implication of the association between GBM transient 150914 and LIGO Gravitational Wave event GW150914. arXiv:1602.04460 [astro-ph.HE]
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GRWAVE-LOEB2016. Abraham Loeb (Harvard). Electromagnetic Counterparts to Black Hole Mergers Detected by LIGO. arXiv:1602.04735 [astro-ph.HE]
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GRWAVE-TIEC2016. Alexandre Le Tiec, Jérôme Novak. Theory of Gravitational Waves. arXiv:1607.04202 [gr-qc]
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GRWAVE-ZHANG2016. Bing Zhang (UNLV). Possible Short Gamma-Ray Bursts Associated with Black Hole - Black Hole Mergers. arXiv:1602.04542 [astro-ph.HE]
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К докладу Grenier

+ GRENIER-ABDO-2011. A. A. Abdo et al. (FERMI collaboration) FERMI OBSERVATIONS OF CASSIOPEIA AND CEPHEUS: DIFFUSE GAMMA-RAY EMISSION IN THE OUTER GALAXY. The Astrophysical Journal, 710:133-149, 2010.
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+ GRENIER-ABDO-2012. A. A. Abdo, U. Abeysekara, B. T. Allen et al. SPECTRUM AND MORPHOLOGY OF THE TWO BRIGHTEST MILAGRO SOURCES IN THE CYGNUS REGION: MGRO J2019+37 AND MGRO J2031+41. The Astrophysical Journal, 753:159 (8pp), 2012.
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+ GRENIER-ACKERMANN-2011. M. Ackermann, M. Ajello, A. Allafort, et al. A Cocoon of Freshly Accelerated Cosmic Rays Detected by Fermi in the Cygnus Superbubble. Science 334, 1103 (2011).
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+- GRENIER-ACKERMANN-2012A. M. Ackermann, M. Ajello, A. Allafort et al. The cosmic-ray and gas content of the Cygnus region as measured in γ-rays by the Fermi Large Area Telescope. A&A 538, A71 (2012).
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+ GRENIER-ACKERMANN-2012B. M. Ackermann, M. Ajello, A. Allafort et al. FERMI-LAT OBSERVATIONS OF THE DIFFUSE γ-RAY EMISSION: IMPLICATIONS FOR COSMIC RAYS AND THE INTERSTELLAR MEDIUM. The Astrophysical Journal, 750:3 (35pp), 2012.
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+ GRENIER-ACKERMANN-2013. M. Ackermann, M. Ajello, A. Allafort et al. Detection of the Characteristic Pion-decay Signature in Supernova Remnants. arXiv:1302.3307v1 [astro-ph.HE].
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+ GRENIER-AHARONIAN-2008. F. Aharonian, A. G. Akhperjanian, A. R. Bazer-Bachi. Discovery of very high energy gamma-ray emission coincident with molecular clouds in the W 28 (G6.4−0.1) ﬁeld. A&A 481, 401-410 (2008).
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GRENIER-BLANDFORD-1982. R.D. Blandford, L.L. Cowie Radio emission from supernova remnants in a cloudy interstellar medium. The Astrophysical Journal, 260:625-634, 1982.
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+ GRENIER-BYKOV-2001. Andrei M. Bykov. PARTICLE ACCELERATION AND NONTHERMAL PHENOMENA IN SUPERBUBBLES. Space Science Reviews 99: 317–326, 2001.
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+ GRENIER-FERRAND-2010A. G. Ferrand and A. Marcowith. On the shape of the spectrum of cosmic rays accelerated inside superbubbles. A&A 510, A101 (2010).
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+ GRENIER-FERRAND-2010B. Gilles Ferrand, Alexandre Marcowith On the Shape of the Spectrum of Cosmic-Rays Protons produced inside Superbubbles. HIGH ENERGY PHENOMENA IN MASSIVE STARS. ASP Conference Series, Vol. 422, 2010, P.3-10
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GRENIER-KATAGIRI-2011. H. Katagiri, L. Tibaldo, J. Ballet, et. al. Fermi Large Area Telescope Observations of the Cygnus Loop Supernova Remnant. arXiv:1108.1833v2 [astro-ph.HE] .
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+ GRENIER-MURPHY2012. E. J. Murphy, T. A. Porter, I. V. Moskalenko, G. Helou, and A. W. Strong. CHARACTERIZING COSMIC-RAY PROPAGATION IN MASSIVE STAR-FORMING REGIONS: THE CASE OF 30 DORADUS AND THE LARGE MAGELLANIC CLOUD. The Astrophysical Journal, 750:126 (10pp), 2012.
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+ GRENIER-PARIZOT-2004. E. Parizot, A. Marcowith, E. van der Swaluw, A. M. Bykov, and V. Tatischeff. Superbubbles and energetic particles in the Galaxy I. Collective effects of particle acceleration. A&A 424, 747–760 (2004).
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+ GRENIER-PTUSKIN-2008. V.S. Ptuskin, V.N. Zirakashvili, A.A. Plesser. Non-linear diffusion of cosmic rays. Advances in Space Research 42 (2008) 486-490.
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+ GRENIER-UCHIYAMA-2010. Yasunobu Uchiyama, Roger D. Blandford, Stefan Funk et al. GAMMA-RAY EMISSION FROM CRUSHED CLOUDS IN SUPERNOVA REMNANTS. The Astrophysical Journal Letters, 723:L122-L126, 2010 .
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+ GRENIER-UCHIYAMA-2012. Yasunobu Uchiyama, Stefan Funk, Hideaki Katagiri et al. FERMI LARGE AREA TELESCOPE DISCOVERY OF GeV GAMMA-RAY EMISSION FROM THE VICINITY OF SNR W44. The Astrophysical Journal Letters, 749:L35 (5pp), 2012.
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Хигсовский бозон и обсуждение стандартной модели

HIGGS-BESS-2011-0699. S. Alekhin, A. Djouadi, S. Moch. The top quark and Higgs boson masses and the stability of the electroweak vacuum. Physics Letters B 716 (2012) 214-219.
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Голографические модели

HIGGS-KIRKLIN2020. Josh Kirklin. Holography from Decoherence and Entanglement. arXiv:2006.13246 [hep-th].
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icrc32, OG1 секция

ICRC32OG1-BESS-2011-0699. N. Picot-Clemente, K. Abe, H. Fuke, et al. Cosmic ray helium isotopes from the BESS-Polar I experiment. icrc32, Beijing, 2011, ID 0699.
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ICRC32OG1-BESS-2011-1230. M. Sasaki, K. Abe, H. Fuke, et al. BESS-Polar: Search for Antihelium. icrc32, Beijing, 2011, ID 1230.
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ICRC32OG1-BESS-2011-1247. N. Thakur, K. Abe, H. Fuke, et al. Transient variations in cosmic ray proton ﬂuxes from BESS-Polar I. icrc32, Beijing, 2011, ID 1247.
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ICRC32OG1-BESS-2011-1259. K. Yoshimura, K. Abe, H. Fuke, et al. Search for cosmic-ray antideuterons with BESS-Polar. icrc32, Beijing, 2011, ID 1259.
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ICRC32OG1-BESS-2011-1280. K. Sakai, K. Abe, H. Fuke, et al. Measurement of cosmic-ray antiproton spectrum at solar minimum with a long-duration balloon ﬂight in Antarctica. icrc32, Beijing, 2011, ID 1280.
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ICRC32OG1-CREAM-2011-1109. Y. S. Yoon, H. S. Ahn, T. Anderson, et al. Proton and helium spectra from the CREAM-III ﬂight. icrc32, Beijing, 2011, ID 1109.
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ICRC32OG1-CRIS-2011-0649. W.R. Binns, E.R. Christian, A.C. Cummings, et. al. First Measurements of the Isotopic Composition of the Ultra-heavy Galactic Cosmic Ray Nuclei 31Ga and 32Ge from the CRIS Experiment on ACE. icrc32, Beijing, 2011, ID 0649.
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ICRC32OG1-CRIS-2011-0791. A. W. Labrador, R. A. Mewaldt, W. R. Binns, et. al. Extending the Iron Energy Spectrum Measurements of the Cosmic Ray Isotope Spectrometer throughout 1997-2011. icrc32, Beijing, 2011, ID 0791.
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ICRC32OG1-CRIS-2011-0657. M.H. Israel, W.R. Binns, E.R. Christian, et. al. Measurements of the elemental abundances of ultra-heavy galactic cosmic rays from Cu through Sr from the CRIS experiment on the ACE satellite. icrc32, Beijing, 2011, ID 0657.
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ICRC32OG1-EW-2011-1353. A.D. Erlykin and A. W. Wolfendale. A New Component of Cosmic Rays?. icrc32, Beijing, 2011, ID 1353.
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ICRC32OG1-ECC-2011-0805. Tadashi Kobayashi, Yoshiko Komori, Kenji Yoshida, Jun Nishimira. High-energy electron observations from 30 GeV to 3 TeV with emulsion chambers. icrc32, Beijing, 2011, ID 0805.
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ICRC32OG1-FERMI-2011-0239. Alexander Moiseev, on behalf of the Fermi LAT collaboration. Fermi LAT Observations of Cosmic Ray Electrons: 3 years in Orbit. icrc32, Beijing, 2011, ID 0239.
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ICRC32OG1-FERMI-2011-1064. J. Vandenbroucke, W. Mitthumsiri, C. Sgro, M. Ackermann, S. Funk, for the Fermi LAT collaboration. Measurement of the cosmic ray positron spectrum with the Fermi LAT using the Earth’s magnetic ﬁeld. icrc32, Beijing, 2011, ID 1064.
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ICRC32OG1-MAGIC-2011-0680. D. Borla Tridon, P. Colin, L. Cossio, M. Doro, V. Scolzotto, on behalf of the MAGIC collaboration. Measurement of the cosmic electron plus positron spectrum with the MAGIC telescopes. icrc32, Beijing, 2011, ID 0680.
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ICRC32OG1-MAGIC-2011-1114. Pierre Colin, Daniela Borla Tridon, Alicia Diago Ortega, Marlene Doerti, Michele Doro, Nikola Strah, Tihomir Suric, Masahiro Teshima, on behalf of the MAGIC collaboration. Probing the CR positron/electron ratio at few hundred GeV through Moon shadow observation with the MAGIC telescopes. icrc32, Beijing, 2011, ID 1114.
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ICRC32OG1-OLIVIN-2011-0489. N.I. Starkov, A.B. Aleksandrov, A.V. Bagulya, Vladimirov M.S., et. al. Results of investigations associated with the search for tracks of relict galaxy nuclei in olivine crystals from meteorites. icrc32, Beijing, 2011, ID 0489.
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ICRC32OG1-OHIRA-2011-1242. Yutaka Ohira, Kunihito Ioka. Cosmic-ray helium hardening. icrc32, Beijing, 2011, ID 1242.
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ICRC32OG1-PAMELA-2011-1218. M. Casolino, on behalf of PAMELA collaboration. Recent PAMELA measurements of proton and helium nuclei and cosmic ray acceleration in the galaxy. icrc32, Beijing, 2011, ID 1218.
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ICRC32OG1-PAMELA-2011-0196. Alexander Karelin, on behalf of PAMELA collaboration. The method and some results of high energy primary proton and light nuclei measurements with the PAMELA calorimeter. icrc32, Beijing, 2011, ID 0196.
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ICRC32OG1-PAMELA-2011-1079. Cristian De Santis, on behalf of PAMELA collaboration. PAMELA measurements of boron and carbon spectra in the energy range 100 MeV/n - 100 GeV/n. icrc32, Beijing, 2011, V.6 P.91-94, ID 1079.
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ICRC32OG1-PAMELA-2011-0669. W. Menn, on behalf of PAMELA collaboration. Measurements of Cosmic-Ray Lithium and Beryllium Isotopes with the PAMELA-Experiment. icrc32, Beijing, 2011, ID 0669.
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ICRC32OG1-PAMELA-2011-0842. Valerio Formato, on behalf of PAMELA collaboration. Measurement of Deuterium and 3 He component in cosmic rays with PAMELA experiment. icrc32, Beijing, 2011, ID 0842.
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ICRC32OG1-PAMELA-2011-0815. Emiliano Mocchiutti, on behalf of PAMELA collaboration. Electrons and Positron Spectra Measured by the PAMELA Space Experiment. icrc32, Beijing, 2011, ID 0815.
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ICRC32OG1-PORTER-2011-1201. Troy A. Porter, Andrey E. Vladimirov, Igor V. Moskalenko, Gudlaugur Johanesson. Testing the Origin of High Energy Cosmic Rays.. icrc32, Beijing, 2011, ID 1201.
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ICRC32OG1-PTUSKIN-2011-0367. Vladimir Ptuskin, Vladimir Zirakashvili, Eeun-Suk Seo. On the hardening of cosmic ray spectrum. icrc32, Beijing, 2011, ID 0367.
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ICRC32OG1-TRACER-2011-0707. P.J. Boyle, M. Ava, J.R. Hohandel, D. Muller, A. Obermeier, J.E. Ward. New measurements of the composition and energy spectra of cosmic-ray nuclei with TRACER. icrc32, Beijing, 2011, ID 0707 (32nd International Cosmic Ray Conference, 2011, V.~6, P.~55--58).
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ICRC32OG1-SUPERTIGER-2011-1234. J.W. Mitchell, W.R. Binns, R.G. Bose, et. al. The Super-TIGER Instrument to Probe Galactic Cosmic Ray Origins. icrc32, Beijing, 2011, ID 1234.
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ICRC32OG1-TRACER-2011-0675. A. Obermeier, P.J. Boyle, J.R. Horandel, D. Muller. Galactic propagation of cosmic rays and the B/C ratio. icrc32, Beijing, 2011, ID 0675.
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ICRC32OG1-TRACER-2011-0828. D. Muller, P.J. Boyle, J.R. Horandel, A. Obermeier Production of secondary cosmic rays in the upper atmosphere. icrc32, Beijing, 2011, ID 0828.
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ICRC32OG1-ZIRAKASHVILI-2011-0837. V.N. Zirakashvili, V.S.Ptuskin. Role of reverse shocks for the production of galactic cosmic rays in SNRs. icrc32, Beijing, 2011, ID 0837.
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История и философия физики

PHYSHIST-HEIZENBERG1970. В. Гейзенберг. Теория, критика и философия. [Здесь же еще пара статей из УФН: Бете, Дирак, - вечерние лекции на симпозиуме в Триесте 1968 г.] УФН Т.102 (1970) С.183-206.
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Информация

INFO-HOSLER2013. Dominic Hosler. Relativistic Quantum Communication. УФН Т.180(4) (2010) С.337-369.
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Происхождение жизни

LIFEOR-IVANITSKY2010. Г.Р. Иваницкий. XXI век: что такое жизнь с точки зрения физики. УФН Т.180(4) (2010) С.337-369.
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LIFEOR-OSTROVSKY2007. В.Е. Островский а, Е.А. Кадышевич. Обобщенная гипотеза происхождения простейших элементов живой материи, трансформации первичной атмосферы и образования залежей гидрата метана. УФН Т.177 (2007) С.183-206.
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Результаты LHC

LHC-ATLAS2011A. The ATLAS Collaboration. Search for new physics in multi-body ﬁnal states at high invariant masses with ATLAS. ATLAS-CONF-2010-088 August 21, 2010.
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LHC-CMS2011A. The CMS Collaboration. CMS Physics Analysis Summary. 2011/08/22 ATLAS-CONF-2010-088 August 21, 2010.
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Лоренц-инваринтность и другие эксперименты квантовой гравитации

LOR-BAILEY2009. Quentin G. Bailey. Lorentz Violation and Gravity. arXiv:0911.1816v1 [gr-qc].
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LOR-CALCAGNI2012. Gianluca Calcagni. Observational effects from quantum cosmology. arXiv:1209.0473v1 [gr-qc].
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LOR-DAS2011. Saurya Das, R.B. Mann. Planck scale effects on some low energy quantum phenomena. arXiv:1109.3258v1 [hep-th].
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LOR-FERMI-Lor-2009. Fermi GBM/LAT Collaborations. Testing Einstein's special relativity with Fermi's short hard gamma-ray burst GRB090510. arXiv:0908.1832v1 [astro-ph.HE].
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LOR-FERMI-Lor-2014. J. Bolmont, V. Vasileiou, A. Jacholkowska, F. Piron, C. Couturier, J. Granot, F.W. Stecker, J. Cohen-Tanugi, F. Longo Lorentz invariance violation: The latest Fermi results and the GRB/AGN complementarity. Nuclear Instruments and Methods in Physics Research A 742 (2014) 165–168.
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LOR-FERMI-Lor-2015. Shu Zhang, Bo-Qiang Ma. Lorentz violation from gamma-ray bursts. Astroparticle Physics 61 (2015) 108–112.
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LOR-SCULLY2010. Sean T. Scully, Floyd W. Stecker. Testing Lorentz Invariance with Neutrinos from Ultrahigh Energy Cosmic Ray Interactions. arXiv:1008.4034v1 [astro-ph.CO].
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LOR-STECKER2009. Floyd W. Stecker. Gamma-ray and Cosmic-ray Tests of Lorentz Invariance Violation and Quantum Gravity Models and Their Implications. arXiv:0912.0500v1 [hep-ph].
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LOR-XIAO2009. Zhi Xiao, Bo-Qiang Ma. Constraints on Lorentz invariance violation from gamma-ray burst GRB090510 [Здесь есть хороший обзор]. arXiv:0909.4927v3 [hep-ph].
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Марс: радиационная безопасность и др.

MARS-DURANTE2014. Marco Durante. Space radiation protection: Destination Mars. Life Sciences in Space Research 1 (2014) 2-9.
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MARS-KENNEDY2014. Ann R. Kennedy. Biological effects of space radiation and development of effective countermeasures. Life Sciences in Space Research 1 (2014) 10-43.
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Математика (категории, топосы, спиноры и обобщения...)

MATH-BAILLY-LONGO. Francis Bailly, Giuseppe Longo Mathematics And The Natural Sciences. Advances in Computer Science and Engineering: Texts: Volume 7, http://www.worldscientific.com/worldscibooks/10.1142/p774#t=aboutBook
Chapter 1
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MATH-COECKE2008. Bob Coecke. Introducing categories to the practicing physicist. arXiv:0808.1032v1 [quant-ph].
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MATH-CRANE2006. Louis Crane Categorical Geometry and the Mathematical Foundations of Quantum General Relativity. arXiv:gr-qc/0602120
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MATH-CRANE2008. Louis Crane Model Categories and Quantum Gravity. arXiv:0810.4492 [gr-qc]
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MATH-DAHLEN2011. Tore Dahlen. A Topos Model for Loop Quantum Gravity. arXiv:1111.5685v1 [math-ph].
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MATH-DOERING2013. Andreas Doering Some Remarks on the Logic of Quantum Gravity. arXiv:1306.3076 [gr-qc]
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MATH-ISHAM1998. C.J. Isham, J. Butterfield A topos perspective on the Kochen-Specker theorem: I. Quantum States as Generalized Valuations. arXiv:quant-ph/9803055
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MATH-ISHAM2008. Andreas Doering, Chris Isham. `What is a Thing?': Topos Theory in the Foundations of Physics. arXiv:0803.0417v1 [quant-ph].
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MATH-ISHAM2010. Chris Isham. Topos Methods in the Foundations of Physics. arXiv:1004.3564v1 [quant-ph].
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MATH-KOROLKOVA2014. A. V. Korolkova, D. S. Kulyabov, L. A. Sevastyanov Tensor computations in computer algebra systems. arXiv:1402.6635 [cs.SC]
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MATH-LACHIEZE-REY2010. Marc Lachieze-Rey Spin and Clifford algebras, an introduction. arXiv:1007.2481v1 [gr-qc].
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MATH-RODIN2012. Andrei Rodin Axiomatic Method and Category Theory arXiv:1210.1478 [math.HO]
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MATH-STEANE2013. Andrew M. Steane. An introduction to spinors. arXiv:1312.3824 [math-ph]
Chapter 1
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MATH-UNIVALENT-GRAYSON-2017. DANIEL R. GRAYSON An introduction to univalent foundations for mathematicians. arXiv:1711.01477
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Отрицательные массы

NEGMASS-BALAKRISHNAN2017. Srivatsan Balakrishnan, Thomas Faulkner, Zuhair U. Khandker, Huajia Wang. A General Proof of the Quantum Null Energy Condition. arXiv:1706.09432 [hep-th]
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NEGMASS-BONDY1957. H. Bondi. Negative Mass in General Relativity. Rev. Mod. Phys. V.29, No3, P.423-428 (1957)
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NEGMASS-BONNOR1989. W.B. Bonnor. Negative mass in general relativity. Gen. Relativ. Gravit. V.21, No11, P.1143-1157 (1989)
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NEGMASS-CALDWELL2019. Allen Caldwell, Gia Dvali. On the Gravitational Force on Anti-Matter. arXiv:1903.09096 [hep-ph]
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NEGMASS-INOMATA1969. A. Inomata, D. Peak. Graviational coupling of negative matter. Nuovo Cimento, V. LXIII B, No 1, P.132-142 (1969).
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NEGMASS-IVANOV2009. P. Ivanov. On the dynamics of exotic matter: Towards creation of Perpetuum Mobile of third kind. Phys. Lett. V.680, P. 212-216 (2009)
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NEGMASS-RAHMAN2019. Sabbir A. Rahman. On the existence of exotic matter in classical Newtonian mechanics. Modern Physics Letters A, Vol. 34, No. 6, 1950049 (2019) [arXiv:1904.07943 [gr-qc]]
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NEGMASS-SHATSKIY2010. А.А. Шацкий, А.Г. Дорошкевич, Д.И. Новиков, И.Д. Новиков. Аккреция экзотической материи на черную дыру Рейснера-Нордстрема. ЖЭТФ, Т.137, вып. 2, С.268-276 (2010)
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NEGMASS-SHATSKIY2011. А.А. Шацкий, И.Д. Новиков, Н.С. Кардашев. Задача Кеплера и столкновения для тел с отрицательными массами. УФН 181 399–403 (2011)
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NEGMASS-SHATSKIY2011ENG. A.A. Shatskiy, I.D. Novikov, N.S. Kardashev. The Kepler problem and collisions of negative masses. Phys. Usp. 54 381–385 (2011)
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NEGMASS-WINTERBERG1961. F. Winterberg. Remark Concerning the Gravitational Interaction of Matter and Anti-Matter. Nuovo Cimento V. XIX, No 1, P. 186
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Нейтрино (осцилляции и прочее), мюоны

NEUTRINO-KELNER2006. M. Honda, T. Kajita, K. Kasahara, S. Midorikava. Calculation of the flux of atmospheric neutrinos. Phys. Rev. D. 1995, V.52, P.4985-5005.
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NEUTRINO-MOTOKI2003. M. Motoki, T. Sanuki, S. Orito, K. Abe, K. Anraku, Y. Asaoka, M. Fujikawa, H. Fuke, S. Haino, M. Imori, K. Izumi, T. Maeno, Y. Makida, N. Matsui, H. Matsumoto, H. Matsunaga, J. Mitchell, T. Mitsui, A. Moiseev, J. Nishimura, M. Nozaki, J. Ormes, T. Saeki, M. Sasaki, E. S. Seo, Y. Shikaze, T. Sonoda, R. Streitmatter, J. Suzuki, K. Tanaka, I. Ueda, J. Z. Wang, N. Yajima, T. Yamagami, A. Yamamoto, Y. Yamamoto, K. Yamato, T. Yoshida, K. Yoshimura Precise Measurements of Atmospheric Muon Fluxes with the BESS Spectrometer. [0.6-20GeV] Astropart.Phys. 19 (2003) 113-126 (arXiv:astro-ph/0205344v1).
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NEUTRINO-SUPERKAMIOKANDE1995. Super-Kamiokande Collaboration: Y. Fukuda et al. Study of the atmospheric neutrino flux in the multi-GeV energy range. [см. AMS protons for further refs] Phys.Lett. B436 (1998) 33-41. (arXiv:hep-ex/9805006v3)
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NEUTRINO-SUPERKAMIOKANDE1998. Super-Kamiokande Collaboration: Y. Fukuda et al. Evidence for Oscillation of Atmospheric Neutrinos. [ссылки [1,2] - расчтеы атмосферных нейтрино] Phys. Rev. Lett. 1998, V.~91, P.~1562--1567 (arXiv:hep-ex/9807003)
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Эксперимент НУКЛОН

NUCLEON-PODOROZHNY2016-ICRC. D.Podorozhny, E.Atkin, V.Bulatov, V.Dorokhov, N.Gorbunov, S.Filippov, V.Grebenyuk, D.Karmanov, I.Kovalev, I.Kudryashov, M.Merkin, A.Pakhomov, A.Panov, D.Polkov, S.Porokhovoy, V.Shumikhin, L.Sveshnikova, A.Tkachenko, L.Tkachev, M.Torochkov, A.Turundaevskiy, O.Vasiliev, A.Voronin. The NUCLEON Space Experiment present status. PoS, 2016, ICRC2015, 295
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Ядерные взаимодействия

NUCLINT-KAMAE2006. Tuneyoshi Kamae, Niklas Karlsson, Tsunefumi Mizuno, Toshinori Abe, and Tatsumi Koi. Parameterization of γ, epm, and Neutrino Spectra Produced by p-p Interaction in Astronomical Environments. The Astrophysical Journal, 647:692-708, 2006., arXiv:astro-ph/0605581v3
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NUCLINT-KELNER2006. S. R. Kelner, F. A. Aharonian, and V. V. Bugayov. Energy spectra of gamma rays, electrons, and neutrinos produced at proton-proton interactions in the very high energy regime. PHYSICAL REVIEW D 74, 034018 (2006).
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Релятивистская гидродинамика

QС-RUBAN2011. V. P. Ruban. Variational principle for frozen-in vortex structures interacting with sound waves. arXiv:physics/0304101 [physics.flu-dyn].
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Quantum computers

QС-TABAKIN2005. Bruno Juliá-Díaz, Joseph M. Burdis and Frank Tabakin QDENSITY - A Mathematica quantum computer simulation. arXiv: quant-ph/0508101.
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QС-TABAKIN2009A. Bruno Juliá-Díaz, Joseph M. Burdis and Frank Tabakin QDENSITY - A Mathematica quantum computer simulation. Computer Physics Communications V. 180 (2009) P. 474.
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QС-TABAKIN2009B. Frank Tabakin, Bruno Juliá-Díaz QCMPI: A parallel environment for quantum computing. Computer Physics Communications V. 180 (2009) P. 948–964.
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QС-TABAKIN2011. Frank Tabakin, Bruno Juliá-Díaz QCWAVE – A Mathematica quantum computer simulation update. Computer Physics Communications 182 (2011) 1693–1707.
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QС-VANDERSAR2012. T. van der Sar, Z. H. Wang, M. S. Blok, H. Bernien, T. H. Taminiau, D. M. Toyli, D. A. Lidar, D. D. Awschalom, R. Hanson, V. V. Dobrovitski. Decoherence-protected quantum gates for a hybrid solid-state spin register. Nature, 2012, V. 484, P. 82-86.
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QС-ZANDG2020. Pengfei Zhang, Zichang Huang, Chao Song, Qiujiang Guo, Zixuan Song, Hang Dong, Zhen Wang, Li Hekang, Muxin Han, Haohua Wang, Yidun Wan. Observation of Two-Vertex Four-Dimensional Spin Foam Amplitudes with a 10-qubit Superconducting Quantum Processor. arXiv:2007.13682 [quant-ph].
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Квантовая гравитация

QG-AASTRUP2012. Johannes Aastrup, Jesper M. Grimstrup C*-algebras of Holonomy-Diffeomorphisms & Quantum Gravity I. arXiv:1209.5060 [math-ph].
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QG-AASTRUP2016. Johannes Aastrup, Jesper M. Grimstrup Quantum Holonomy Theory and Hilbert Space Representations. arXiv:1604.06319 [gr-qc].
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QG-AASTRUP2017. Johannes Aastrup, Jesper M. Grimstrup Quantum Gravity and the Emergence of Matter. arXiv:1709.02941 [gr-qc].
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QG-AASTRUP2020. Johannes Aastrup, Jesper M. Grimstrup. The Metric Nature of Matter. arXiv:2008.09356 [hep-th].
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QG-ADDAZI2020A. Andrea Addazi. Holographic Naturalness and Topological Phase Transitions. arXiv:2005.02040 [hep-th].
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QG-ADELMAN2015. Jeremy Adelman. The Necessity of Quantizing Gravity. arXiv:1510.07195 [gr-qc].
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QG-AMBJORN2010. J. Ambjorn, A. Goerlich, J.Jurkiewicz, R. Loll. CDT---an Entropic Theory of Quantum Gravity. [Реально речь идет о причинной динамической триангуляции] arXiv:1007.2560v1 [hep-th].
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QG-AMBJORN2012. J. Ambjorn, A. Goerlich, J. Jurkiewicz, R. Loll. Nonperturbative Quantum Gravity. [Реально речь идет в основном о причинной динамической триангуляции] arXiv:1203.3591v1 [hep-th].
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QG-AMELINO-CAMELIA2010. Giovanni Amelino-Camelia. Doubly-Special Relativity: Facts, Myths and Some Key Open Issues. arXiv:1003.3942v1 [gr-qc].
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QG-ANDERSON2012-TIME. Edward Anderson. Relationalism. arXiv:1205.1256 [gr-qc].
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QG-ANDERSON2013-TIME. Edward Anderson. Problem of Time: Facets and Machian Strategy. arXiv:1306.5816 [gr-qc].
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QG-ASHTEKAR2013. Abhay Ashtekar. A new perspective on CP and T violation. arXiv:1307.1331 [gr-qc].
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QG-BAHRAMI2015. M. Bahrami, A. Bassi, S. McMillen, M. Paternostro, H. Ulbricht Is Gravity Quantum?. arXiv:1507.05733 [quant-ph].
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QG-BARENZ2012. Manuel Bärenz. General Covariance and Background Independence in Quantum Gravity. arXiv:1207.0340v1 [gr-qc].
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QG-BARRAU2017. Aurélien Barrau Testing different approaches to quantum gravity with cosmology: An overview. arXiv:1705.01597 [gr-qc].
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QG-BASSI2017. Angelo Bassi, André Großardt, Hendrik Ulbricht. Gravitational Decoherence. arXiv:1706.05677 [quant-ph].
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QG-BILSON-THOMPSON2005. Sundance O. Bilson-Thompson. A topological model of composite preons. arXiv:hep-ph/0503213v2.
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QG-BILSON-THOMPSON2006. Sundance O. Bilson-Thompson, Fotini Markopoulou, Lee Smolin. Quantum gravity and the standard model. arXiv:hep-th/0603022v2.
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QG-BILSON-THOMPSON2008. Sundance Bilson-Thompson, Jonathan Hackett, Lou Kauffman, Lee Smolin. Particle Identifications from Symmetries of Braided Ribbon Network Invariants. arXiv:0804.0037v1 [hep-th]
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QG-BILSON-THOMPSON2009. Sundance Bilson-Thompson, Jonathan Hackett, Louis H. Kauffman. Particle Topology, Braids, and Braided Belts. arXiv:0903.1376v1 [math.AT]
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QG-BILSON-THOMPSON2011. Sundance Bilson-Thompson, Jonathan Hackett, Louis Kauffman, Yidun Wan. Emergent Braided Matter of Quantum Geometry arXiv:1109.0080v1 [hep-th]
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QG-BILSON-THOMPSON2014. Sundance Bilson-Thompson, Deepak Vaid. LQG for the Bewildered. arXiv:1402.3586 [gr-qc]
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QG-CAI2010. Rong-Gen Cai, Li-Ming Cao, Nobuyoshi Ohta. Friedmann Equations from Entropic Force. arXiv:1001.3470v1 [hep-th].
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QG-CALMET2010. Xavier Calmet. A review of Quantum Gravity at the Large Hadron Collider. arXiv:1005.1805v1 [hep-ph].
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QG-GAO2010. Sheldon Gao. Comment on "On the Origin of Gravity and the Laws of Newton" by Erik P. Verlinde. arXiv:1002.2668v1 [gr-qc].
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QG-CARLIP2001. S. Carlip Quantum Gravity: a Progress Report. arXiv:gr-qc/0108040.
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QG-CARLIP2011. S. Carlip, R. A. Mosna, J. P. M. Pitelli. Vacuum Fluctuations and the Small Scale Structure of Spacetime. arXiv:1103.5993v1 [gr-qc]
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QG-CARROZZA2013. Sylvain Carrozza. Tensorial methods and renormalization in Group Field Theories [Theses 229p]. arXiv:1310.3736 [hep-th].
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QG-CESARE2018. Marco de Cesare, Mairi Sakellariadou, Patrizia Vitale. Noncommutative gravity with self-dual variables [Immirzi = - i]. arXiv:1806.04666 [gr-qc].
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QG-CHRISTODOULOU2018. Marios Christodoulou, Carlo Rovelli On the possibility of experimental detection of the discreteness of time. arXiv:1812.01542 [gr-qc].
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QG-CONNES2000. Alain CONNES. NONCOMMUTATIVE GEOMETRY YEAR 2000. arXiv:math/0011193 [hep-ph].
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QG-CONNES2014A. Ali H. Chamseddine, Alain Connes, and Viatcheslav Mukhanov. Quanta of Geometry. arXiv:1409.2471 [hep-ph].
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QG-CONNES2014B. Ali H. Chamseddine, Alain Connes, Viatcheslav Mukhanov Geometry and the Quantum: Basics. arXiv:1411.0977 [hep-th].
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QG-CONNES2017. Alain Connes Geometry and the Quantum. arXiv:1703.02470 [hep-th].
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QG-CROUSE2018. David Crouse, Joseph Skufca. On the Nature of Discrete Space-Time: The distance formula, relativistic time dilation and length contraction in discrete space-time. arXiv:1803.03126 [physics.gen-ph].
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QG-DEEPAK2017. Deepak Vaid. Connecting Loop Quantum Gravity and String Theory via Quantum Geometry. arXiv:1711.05693 [gr-qc].
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QG-DEVASTATO2014. Agostino Devastato, Pierre Martinetti [see CONNES]. Twisted spectral triple for the Standard Model and spontaneous breaking of the Grand Symmetry. arXiv:1411.1320 [hep-th].
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QG-FINSTER2016. Felix Finster. The Continuum Limit of Causal Fermion Systems. arXiv:1605.04742 [math-ph].
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QG-FLORI2009. Cecilia Flori. Approaches To Quantum Gravity. [LQG and topos approaches. Dissertation, good review, 250 стр.] arXiv:0911.2135v1 [gr-qc]
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QG-FREIDEL2010. Laurent Freidel, Simone Speziale From twistors to twisted geometries. arXiv:1006.0199v1 [gr-qc].
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QG-GAMBINI2018. Rodolfo Gambini, Jorge Pullin. Gravitation in terms of observables. arXiv:1802.02661 [gr-qc].
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QG-GELOUN2011. Joseph Ben Geloun. Classical Group Field Theory. arXiv:1107.3122v1 [hep-th].
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QG-GLASER2018. Lisa Glaser, Sebastian Steinhaus. Quantum Gravity on the computer: Impressions of a workshop. arXiv:1811.12264 [gr-qc].
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QG-HECKMAN2013. Jonathan J. Heckman. Statistical Inference and String Theory. arXiv:1305.3621 [hep-th].
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QG-HEDRICH2009. Reiner Hedrich. Quantum Gravity: Motivations and Alternatives. arXiv:0908.0355v1 [gr-qc].
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QG-HERTZBERG2019. Mark P. Hertzberg, Mudit Jain. An Explanation for why the Early Universe was Dominated by the Standard Model and Stable. arXiv:1911.04648 [hep-ph].
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QG-HOSSENFELDER2010. Sabine Hossenfelder Experimental Search for Quantum Gravity. arXiv:1010.3420v1 [gr-qc].
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QG-ISHAM1995. C.J. Isham. STRUCTURAL ISSUES IN QUANTUM GRAVITY. arXiv:gr-qc/9510063 v1.
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QG-IVANOV-CHERNOV2015. P. Ivanov, S. V. Chernov [астрокосмический центр ФИАН]. A stochastic quasi-classical wavefunction of the Universe from the third quantization procedure. arXiv:1507.06507 [gr-qc].
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QG-KANATCHIKOV2014. I.V. Kanatchikov. On precanonical quantization of gravity. arXiv:1407.3101 [gr-qc].
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QG-KANATCHIKOV2015. I.V. Kanatchikov. On the "Spin-Connection Foam" Picture of Quantum Gravity from Precanonical Quantization. arXiv:1512.09137 [gr-qc].
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QG-KELLY2018. C. Kelly, C. A. Trugenberger Combinatorial Quantum Gravity: Emergence of Geometric Space from Random Graphs. arXiv:1811.12905 [hep-th].
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QG-KIEFER2020. Claus Kiefer. Space, Time, Matter in Quantum Gravity. arXiv:2004.03174 [gr-qc].
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QG-KLAUDER2019. John R. Klauder Quantum Gravity Made Easy. arXiv:1903.11211 [gr-qc].
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QG-KOBAKHIDZE2010. Archil Kobakhidze Gravity is not an entropic force. arXiv:1009.5414v1 [hep-th].
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QG-LARSSON2014. T.A. Larsson Three Principles for Quantum Gravity [обобщение алгебры Вирасоро - нетривиально]. arXiv:1407.6378 [gr-qc].
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QG-LISI2010. A. Garrett Lisi, Lee Smolin, Simone Speziale Unification of gravity, gauge fields, and Higgs bosons. arXiv:1004.4866v1 [gr-qc].
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QG-MA2018. Hefu Yu, Bo-Qiang Ma. Origin of fermion generations from extended noncommutative geometry. arXiv:1810.10189 [hep-th].
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QG-MAJID2017. Shahn Majid. On the emergence of the structure of Physics. arXiv:1711.00556 [math-ph].
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QG-MAKELA2010. Jarmo Mäkelä. Notes Concerning "On the Origin of Gravity and the Laws of Newton" by E. Verlinde (arXiv:1001.0785) arXiv:1001.3808v1 [gr-qc]
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QG-MANIN2008. Ю.И. Манин. Размышления об арифметической физике. В кн.: Ю.И. Манин. Математика как метафора. М.: МЦНМО, 2008. С. 209-218.
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QG-MARKOPOLOU-SMOLIN2006. Tomasz Konopka, Fotini Markopoulou and Lee Smolin. Quantum Graphity. arXiv:hep-th/0611197v1.
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QG-MARKOPOLOU2007. Fotini Markopoulou. New directions in Background Independent Quantum Gravity. arXiv:gr-qc/0703097v1.
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QG-MARKOPOLOU2008A. Tomasz Konopka, Fotini Markopoulou, Simone Severini. Quantum Graphity: a model of emergent locality. Phys.Rev.D77:104029,2008, arXiv:0801.0861v2 [hep-th].
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QG-MARKOPOLOU2008B. Alioscia Hamma, Fotini Markopoulou, Isabeau Premont-Schwarz, Simone Severini. Lieb-Robinson bounds and the speed of light from topological order. arXiv:0808.2495v2 [quant-ph].
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QG-MARKOPOLOU2009. Alioscia Hamma, Fotini Markopoulou, Seth Lloyd, Francesco Caravelli, Simone Severini, Klas Markstrom. A quantum Bose-Hubbard model with evolving graph as toy model for emergent spacetime. arXiv:0911.5075v2 [gr-qc].
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QG-MARKOPOLOU2012. Fotini Markopoulou. The Computing Spacetime. arXiv:1201.3398v1 [gr-qc].
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QG-MICOVIC2014. Aleksandar Mikovic, Marko Vojinovic Solution to the Cosmological Constant Problem in a Regge Quantum Gravity Model. arXiv:1407.1394 [gr-qc].
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QG-MIELCZAREK2017. Jakub Mielczarek, Tomasz Trześniewski. Towards the map of quantum gravity. arXiv:1708.07445 [hep-th].
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QG-NICOLAI2013. Hermann Nicolai. Quantum Gravity: the view from particle physics. arXiv:1301.5481 [gr-qc].
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QG-NOMURA2017. Yasunori Nomura, Pratik Rath, Nico Salzetta. Spacetime from Unentanglement. arXiv:1711.05263 [hep-th].
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QG-OLIVERIA2018. Miguel Angelo Oliveira. The BFCG Theory and Canonical Quantization of Gravity. arXiv:1801.04818 [gr-qc].
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QG-PADMANABHAN2017. Thanu Padmanabhan. The atoms of spacetime and the cosmological constant. arXiv:1209.5060 [math-ph].
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QG-PASZKO2012. Ricardo Paszko. Introduction to Quantum Gravity arXiv:1205.6738v2 [gr-qc].
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QG-PITHIS2019. Andreas G. A. Pithis. Aspects of quantum gravity. arXiv:1903.07735 [gr-qc].
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QG-PUROHIT2019. Avadhut V. Purohit. Classical Wheeler-DeWitt field and its Quantization. arXiv:1910.13217 [gr-qc].
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QG-RAAMSDONK2010. Mark Van Raamsdonk. Building up spacetime with quantum entanglement. arXiv:1005.3035 [math-ph].
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QG-RAASAKKA2016. Matti Raasakka Spacetime-Free Approach to Quantum Theory and Effective Spacetime Structure. arXiv:1605.03942 [gr-qc].
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QG-RIVASSEAU2011. Vincent Rivasseau. Towards Renormalizing Group Field Theory. arXiv:1103.1900v1 [gr-qc].
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QG-ROVELLI2020. Richard Howl, Vlatko Vedral, Marios Christodoulou, Carlo Rovelli, Devang Naik, Aditya Iyer. Testing Quantum Gravity with a Single Quantum System. arXiv:2004.01189 [quant-ph].
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QG-RUIZ2012. Hans-Christian Ruiz. Introduction to Spin Networks and Towards a Generalization of the Decomposition Theorem. arXiv:1206.3457v1 [hep-th].
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QG-SAKELLARIADOU2014. Mairi Sakellariadou Unweaving the Fabric of the Universe: The Interplay between Mathematics and Physics. arXiv:1407.3934 [gr-qc].
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QG-SALISBURY2019. Donald Salisbury. Toward a quantum theory of gravity: Syracuse 1949-1962. arXiv:1909.05412 [physics.hist-ph].
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QG-SAUERESSING2019. Frank Saueressig, Giulia Gubitosi, Chris Ripken. Scales and hierachies in asymptotically safe quantum gravity: a review. arXiv:1901.01731 [gr-qc].
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QG-SHESTAKOVA2011. T. P. Shestakova. A view on the problems of Quantum Gravity. arXiv:1111.2192 [gr-qc].
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QG-SINDONI2011. L. Sindoni. Emergent models for gravity: an overview. arXiv:1110.0686v1 [gr-qc].
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QG-SINGH2019A. Tejinder P. Singh. Proposal for a new quantum theory of gravity. arXiv:1903.05402 [gr-qc].
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QG-SINGH2019B. Shounak De, Tejinder P. Singh, Abhinav Varma. Quantum gravity as an emergent phenomenon. arXiv:1903.11066 [gr-qc].
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QG-SMOLIN2009A. Lee Smolin. The quantization of unimodular gravity and the cosmological constant problem. arXiv:0904.4841v1 [hep-th] .
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QG-SMOLIN2015. Lee Smolin The thermodynamics of quantum spacetime histories. arXiv:1510.03858 [gr-qc].
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QG-STOJKOVIC2014. Dejan Stojkovic. Vanishing dimensions: Review. arXiv:1406.2696 [gr-qc].
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QG-SUNG-SIK2019. Sung-Sik Lee. A model of quantum gravity with emergent spacetime. arXiv:1912.12291 [hep-th].
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QG-TAWFIK2012. Abdel Nasser Tawfik, Abdel Magied Diab. Generalized Uncertainty Principle: Approaches and Applications. arXiv:1410.0206 [gr-qc].
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QG-THURIGEN2015. Johannes Thürigen Discrete quantum geometries and their effective dimension. arXiv:1510.08706 [gr-qc].
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QG-UNRUH2017. Qingdi Wang, Zhen Zhu, William G. Unruh How the huge energy of quantum vacuum gravitates to drive the slow accelerating expansion of the universe. arXiv:1703.00543 [gr-qc].
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QG-VAID2010. Deepak Vaid. Embedding the Bilson-Thompson model in an LQG-like framework. arXiv:1002.1462v1 [hep-th]
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QG-VAID2014A. Deepak Vaid. Quantum Gravity for Dummies. arXiv:1402.2757 [physics.pop-ph].
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QG-VAID2014B. Sundance Bilson-Thompson, Deepak Vaid. LQG for the Bewildered. arXiv:1402.3586 [gr-qc].
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QG-VERLINDE2010. Erik P. Verlinde. On the Origin of Gravity and the Laws of Newton. arXiv:1001.0785v1 [hep-th].
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QG-VITALE2012. Patrizia Vitale. Aspects of Group Field Theory. arXiv:1203.5679v1 [hep-th].
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QG-VOLOVIK2020. G.E. Volovik. Dimensionless physics. arXiv:2006.16821 [gr-qc].
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QG-WALD2018. Alessio Belenchia, Robert M. Wald, Flaminia Giacomini, Esteban Castro-Ruiz, Časlav Brukner, Markus Aspelmeyer. Quantum Superposition of Massive Objects and the Quantization of Gravity. Phys. Rev. D 98, 126009 (2018). [arXiv:1807.07015 [quant-ph]]
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QG-WOODARD2009. R. P. Woodard. How Far Are We from the Quantum Theory of Gravity. arXiv:0907.4238v1 [gr-qc].
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Квантовая гравитация - причинные множества

QGCS-BELENCHIA2015. Alessio Belenchia. Causal Set theory, non-locality and phenomenology. arXiv:1512.08485 [gr-qc].
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QGCS-CUNNINGHAM2017. William Cunningham, Dmitri Krioukov. Causal Set Generator and Action Computer. arXiv:1709.03013 [gr-qc].
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QGCS-DARIANO2010. Giacomo Mauro D'Ariano, Alessandro Tosini. Space-time and special relativity from causal networks. arXiv:1008.4805v1 [gr-qc].
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QGCS-DRIBUS2013. Benjamin F. Dribus. On the Axioms of Causal Set Theory. arXiv:1311.2148 [gr-qc].
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QGCS-GUDDER2014. Stan Gudder. The Universe as a Quantum Computer. arXiv:1405.0638 [gr-qc].
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QGCS-GUDDER2015. Stanley Gudder. Curvature and Quantum Mechanics on Covariant Causal Sets. arXiv:1507.04810 [gr-qc].
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QGCS-KENT2018. Adrian Kent. Are There Testable Discrete Poincaré Invariant Physical Theories? arXiv:1803.11484 [gr-qc].
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QGCS-PHILPOTT2010. Lydia Philpott. Causal Set Phenomenology [Литература, введение]. arXiv:1009.1593v1 [gr-qc].
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QGCS-SORKIN2003. Rafael D. Sorkin. Causal Sets: Discrete Gravity. arXiv:gr-qc/0309009v1.
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QGCS-SORKIN2011. Rafael D. Sorkin. Toward a "fundamental theorem of quantal measure theory". arXiv:1104.0997v1 [hep-th].
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QGCS-SORKIN2016. Rafael D. Sorkin, Yasaman K. Yazdi. Entanglement Entropy in Causal Set Theory. arXiv:1611.10281 [hep-th].
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QGCS-SORKIN2019. Fay Dowker, Rafael D. Sorkin. Symmetry-breaking and zero-one laws. arXiv:1909.06070 [gr-qc].
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QGCS-SURYA2019. Sumati Surya. The causal set approach to quantum gravity. arXiv:1903.11544 [gr-qc] (Invited review article for Living Reviews in Relativity).
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QGCS-WUTHRICH2020. Christian Wüthrich, Nick Huggett. Out of Nowhere: The emergence of spacetime from causal sets. arXiv:2009.02951 [physics.hist-ph].
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Квантовая гравитация и голография

QGHOL-HARLOW2018. Daniel Harlow. TASI Lectures on the Emergence of the Bulk in AdS/CFT. arXiv:1802.01040 [hep-th]
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QGHOL-HEADRICK2019. Matthew Headrick. Lectures on entanglement entropy in field theory and holography. arXiv:1907.08126 [hep-th]
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QGHOL-NOMURA2016. Yasunori Nomura, Nico Salzetta, Fabio Sanches, Sean J. Weinberg. Toward a Holographic Theory for General Spacetimes. Phys. Rev. D 95, 086002 (2017), arXiv:1611.02702 [hep-th]
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QGHOL-NOMURA2017. Yasunori Nomura, Pratik Rath, Nico Salzetta. Spacetime from Unentanglement. arXiv:1711.05263 [hep-th]
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QGHOL-PARK2019. I. Y. Park. Foliation-based approach to quantum gravity and applications to astrophysics. arXiv:1902.03332 [hep-th]
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QGHOL-SUSSKIND1994. L. Susskind. The World as a Hologram. J.Math.Phys.36:6377-6396,1995, arXiv:hep-th/9409089
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Петлевая квантовая гравитация

QGL-ACHOUR2015A. Jibril Ben Achour, Karim Noui. Analytic continuation of real Loop Quantum Gravity : Lessons from black hole thermodynamics. arXiv:1501.05523 [gr-qc]
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QGL-ACHOUR2015B. Jibril Ben Achour. Towards self dual Loop Quantum Gravity. arXiv:1511.07332 [gr-qc]
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QGL-AGULLO2011. Ivan Agullo, J. Fernando Barbero G., Enrique F. Borja, Jacobo Diaz-Polo, Eduardo J. S. Villaseñor Detailed black hole state counting in loop quantum gravity. arXiv:1101.3660v1 [gr-qc] (10.1103/PhysRevD.82.084029)
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QGL-ALEXANDER2011. Stephon Alexander, Antonino Marciano, Ruggero Altair Tacchi. Towards a Spin-foam unification of gravity, Yang-Mills interactions and matter fields. [Яркий пример объединения с помощью раскрашивания ребер]. arXiv:1105.3480v1 [gr-qc].
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QGL-ALEXANDROV2010. Sergei Alexandrov, Philippe Roche Critical Overview of Loops and Foams. arXiv:1009.4475v1 [gr-qc].
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QGL-ALEXANDROV2011. Sergei Alexandrov, Marc Geiller, Karim Noui Spin Foams and Canonical Quantization. arXiv:1112.1961v1 [gr-qc]
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QGL-ASHTEKAR2010. Abhay Ashtekar, Miguel Campiglia, Adam Henderson. Casting Loop Quantum Cosmology in the Spin Foam Paradigm. arXiv:1001.5147v1 [gr-qc].
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QGL-ASHTEKAR2012A. Abhay Ashtekar. Introduction to Loop Quantum Gravity. arXiv:1201.4598v1 [gr-qc].
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QGL-ASHTEKAR2012B. Abhay Ashtekar, Miguel Campiglia. On the Uniqueness of Kinematics of Loop Quantum Cosmology. arXiv:1209.4374 [gr-qc].
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QGL-ASHTEKAR2014. Abhay Ashtekar, Martin Reuter, Carlo Rovelli. From General Relativity to Quantum Gravity. arXiv:1408.4336 [gr-qc].
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QGL-ASHTEKAR2017. Abhay Ashtekar, Jorge Pullin. The Overview Chapter in Loop Quantum Gravity: The First 30 Years. arXiv:1703.07396 [gr-qc]
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QGL-BAHR2015. Benjamin Bahr, Bianca Dittrich, Marc Geiller A new realization of quantum geometry. arXiv:1506.08571 [gr-qc]
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QGL-BARBERO2015. Fernando Barbero G. and Alejandro Perez. Quantum Geometry and Black Holes. arXiv:1501.02963 [gr-qc]
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QGL-BARRAU2014. A. Barrau, J. Grain. Loop quantum gravity and observations. arXiv:1410.1714 [gr-qc]
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QGL-BARRAU2018. Aurélien Barrau, Killian Martineau, Flora Moulin. A status report on the phenomenology of black holes in loop quantum gravity: Evaporation, tunneling to white holes, dark matter and gravitational waves. arXiv:1808.08857 [gr-qc]
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QGL-BODENDORFER2016. Norbert Bodendorfer. An elementary introduction to loop quantum gravity. arXiv:1607.05129 [gr-qc]
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QGL-BOJOWALD2012. Martin Bojowald. Loop quantum gravity as an effective theory. arXiv:1208.1463v1 [gr-qc]
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QGL-BOJOWALD2014. Martin Bojowald. Information loss, made worse by quantum gravity. arXiv:1409.3157 [gr-qc]
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QGL-BORJA2011. Enrique F. Borja, Iñaki Garay, Francesca Vidotto. Learning about quantum gravity with a couple of nodes. arXiv:1110.3020v1 [gr-qc]
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QGL-CASARES2018. Pablo Antonio Moreno Casares. A review on Loop Quantum Gravity. arXiv:1808.01252 [gr-qc]
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QGL-CHARLES2018. Christoph Charles. Abelian 2+1D Loop Quantum Gravity Coupled to a Scalar Field. arXiv:1808.09216 [gr-qc]
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QGL-CHIOU2014. Dah-Wei Chiou Loop Quantum Gravity. arXiv:1412.4362 [gr-qc]
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QGL-CONRADY2010. Florian Conrady, Jeff Hnybida. A spin foam model for general Lorentzian 4-geometries (в том числе - квантование времениподобных поверхностей). arXiv:1002.1959v1 [gr-qc].
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QGL-CONRADY2010A. Florian Conrady Spin foams with timelike surfaces. arXiv:1003.5652v1 [gr-qc].
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QGL-DATE2010. Ghanashyam Date. Lectures on LQG/LQC. arXiv:1004.2952v1 [gr-qc].
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QGL-DIAZ-POLO2011. Jacobo Diaz-Polo, Daniele Pranzetti Isolated Horizons and Black Hole Entropy In Loop Quantum Gravity. arXiv:1112.0291v1 [gr-qc]
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QGL-DONA2010. Pietro Doná, Simone Speziale Introductory lectures to loop quantum gravity. arXiv:1007.0402v1 [gr-qc].
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QGL-DUPUIS2012A. Maite Dupuis, Simone Speziale, Johannes Tambornino. Spinors and Twistors in Loop Gravity and Spin Foams. arXiv:1201.2120v1 [gr-qc]
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QGL-DUPUIS2012B. Maite Dupuis, James P. Ryan, Simone Speziale. Discrete gravity models and Loop Quantum Gravity: a short review. arXiv:1204.5394v1 [gr-qc]
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QGL-ENGLE2013. Jonathan Engle Spin foams. arXiv:1303.4636v1 [gr-qc]
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QGL-FELLER2015. Alexandre Feller, Etera R. Livine. Ising Spin Network States for Loop Quantum Gravity: a Toy Model for Phase Transitions. arXiv:1509.05297 [gr-qc]
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QGL-GARCIA-ISLAS2019I. J. Manuel Garcia-Islas. Quantum Geometry I : Basics of Loop Quantum Gravity. The Quantum Polyhedra. arXiv:1902.05709 [gr-qc]
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QGL-GIELEN2012. Steffen Gielen. Spontaneous breaking of Lorentz symmetry for canonical gravity. arXiv:1210.1787 [gr-qc]
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QGL-GIESEL2012. Kristina Giesel, Hanno Sahlmann. From Classical To Quantum Gravity: Introduction to Loop Quantum Gravity. arXiv:1203.2733v1 [gr-qc]
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QGL-GIRELLI2012. Florian Girelli, Franz Hinterleitner, Seth Major. Loop Quantum Gravity Phenomenology: Linking Loops to Physics. arXiv:1210.1485 [gr-qc]
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QGL-GORJI2016. Jibril M. A. Gorji, K. Nozari, B. Vakili. Gravity's rainbow: a bridge between LQC and DSR. arXiv:1606.00910 [gr-qc]
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QGL-HACKETT2011A. Jonathan Hackett. Invariants of Spin Networks from Braided Ribbon Networks. arXiv:1106.5095v1 [math-ph]
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QGL-HACKETT2011B. Jonathan Hackett. Invariants of Braided Ribbon Networks. arXiv:1106.5096v1 [math-ph]
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QGL-HAMBER2009. Herbert W. Hamber, Ruth M. Williams Gravitational Wilson Loop in Discrete Quantum Gravity. Phys.Rev.D81:084048,2010, arXiv:0907.2652v2 [hep-th]
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QGL-HAN2014. Muxin Han. Covariant Loop Quantum Gravity, Low Energy Perturbation Theory, and Einstein Gravity with High Curvature UV Corrections. arXiv:1308.4063 [gr-qc] (v3, 2014)
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QGL-LEWANDOWSKI2010A. Marcin Domagala, Kristina Giesel, Wojciech Kaminski, Jerzy Lewandowski. Gravity quantized. arXiv:1009.2445v2 [gr-qc].
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QGL-LEWANDOWSKY2010B. Marcin Domagala, Kristina Giesel, Wojciech Kaminski, and Jerzy Lewandowski. Gravity quantized: Loop quantum gravity with a scalar field [atually it is the same as QGL-LEWANDOWSKI2010A]. PHYSICAL REVIEW D 82, 104038 (2010)
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QGL-LIN2009. Chun-Yen Lin. Emergence of General Relativity from Loop Quantum Gravity. arXiv:0912.0554v2 [gr-qc].
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QGL-LIVINE2018. Etera R. Livine. From Coarse-Graining to Holography in Loop Quantum Gravity. arXiv:1704.04067 [gr-qc]
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QGL-MAKINEN2019. Ilkka Mäkinen. Dynamics in canonical models of loop quantum gravity. arXiv:1910.00469 [gr-qc]
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QGL-MARTIN-DUSSAND2019. Pierre Martin-Dussaud. A Primer of Group Theory for Loop Quantum Gravity and Spin-foams. arXiv:1902.08439 [math-ph]
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QGL-MERCURI2010. Simone Mercuri. Introduction to Loop Quantum Gravity. arXiv:1001.1330v1 [gr-qc].
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QGL-ORITI2014. Daniele Oriti. Group Field Theory and Loop Quantum Gravity. arXiv:1408.7112 [gr-qc]
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QGL-ORITI2018. Daniele Oriti. Levels of spacetime emergence in quantum gravity. arXiv:1807.04875 [physics.hist-ph]
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QGL-PEREZ2006. Alejandro Perez. The spin-foam-representation of LQG. arXiv:gr-qc/0601095 v1.
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QGL-PEREZ2013. Alejandro Perez. The Spin-Foam Approach to Quantum Gravity. Living Rev. Relativity 16 (2013), 3
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QGL-SMOLIN2010A. Lee Smolin. Newtonian gravity in loop quantum gravity. arXiv:1001.3668v1 [gr-qc].
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QGL-SMOLIN2014. Lee Smolin. Linking shape dynamics and loop quantum gravity. arXiv:1407.2909 [gr-qc]
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QGL-SPEZIALE2012-TWISTORS. Simone Speziale, Wolfgang M. Wieland The twistorial structure of loop-gravity transition amplitudes. arXiv:1207.6348v1 [gr-qc]
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QGL-THURIGEN2015. Johannes Thürigen. Group field theories generating polyhedral complexes. arXiv:1506.08384 [gr-qc]
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QGL-ROVELLI2008A. Carlo Rovelli. Loop Quantum Gravity. Living Rev. Relativity, 11, (2008), 5; http://www.livingreviews.org/lrr-2008-5.
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QGL-ROVELLI2010A. Carlo Rovelli. A new look at loop quantum gravity. arXiv:1004.1780v1 [gr-qc].
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QGL-ROVELLI2010B. Eugenio Bianchi, Daniele Regoli, Carlo Rovelli. Face amplitude of spinfoam quantum gravity. arXiv:1005.0764v1 [gr-qc].
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QGL-ROVELLI2010C. Carlo Rovelli Simple model for quantum general relativity from loop quantum gravity arXiv:1010.1939v1 [gr-qc].
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QGL-ROVELLI2010D. Carlo Rovelli, Simone Speziale Lorentz covariance of loop quantum gravity. arXiv:1012.1739v1 [gr-qc].
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QGL-ROVELLI2010E. Carlo Rovelli Loop quantum gravity: the first twenty five years. arXiv:1012.4707v1 [gr-qc].
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QGL-ROVELLI2011A. Carlo Rovelli Lectures on loop gravity. arXiv:1102.3660v2 [gr-qc].
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QGL-ROVELLI2011B. Carlo Rovelli A critical look at strings. arXiv:1108.0868v1 [hep-th].
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QGL-ROVELLI2014. Carlo Rovelli LQG predicts the Unruh Effect. Comment to the paper "Absence of Unruh effect in polymer quantization" by Hossain and Sardar. arXiv:1412.7827 [gr-qc].
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QGL-THIEMANN-2011-V1. Norbert Bodendorfer, Thomas Thiemann, Andreas Thurn. New Variables for Classical and Quantum Gravity in all Dimensions I. Hamiltonian Analysis. arXiv:1105.3703v1 [gr-qc].
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QGL-THIEMANN-2011-V2. Norbert Bodendorfer, Thomas Thiemann, Andreas Thurn. New Variables for Classical and Quantum Gravity in all Dimensions II. Lagrangian Analysis. arXiv:1105.3704v1 [gr-qc]
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QGL-THIEMANN-2011-V3. Norbert Bodendorfer, Thomas Thiemann, Andreas Thurn. New Variables for Classical and Quantum Gravity in all Dimensions III. Quantum Theory. arXiv:1105.3705v1 [gr-qc]
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QGL-THIEMANN-2011-V4. Norbert Bodendorfer, Thomas Thiemann, Andreas Thurn. New Variables for Classical and Quantum Gravity in all Dimensions IV. Matter Coupling. arXiv:1105.3706v1 [gr-qc]
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QGL-THIEMANN-2011-S1. Norbert Bodendorfer, Thomas Thiemann, Andreas Thurn. On the Implementation of the Canonical Quantum Simplicity Constraint. arXiv:1105.3708v1 [gr-qc]
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QGL-THIEMANN-2011-S2. Norbert Bodendorfer, Thomas Thiemann, Andreas Thurn. Towards Loop Quantum Supergravity (LQSG) I. Rarita-Schwinger Sector. arXiv:1105.3709v1 [gr-qc]
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QGL-THIEMANN-2011-S3. Norbert Bodendorfer, Thomas Thiemann, Andreas Thurn. Towards Loop Quantum Supergravity (LQSG) II. p-Form Sector. arXiv:1105.3710v1 [gr-qc]
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QGL-THIEMANN-2011-LQSG. Norbert Bodendorfer, Thomas Thiemann, Andreas Thurn. Towards Loop Quantum Supergravity (LQSG). arXiv:1106.1103v1 [gr-qc]
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Непостоянство скорости света и квантовая гравитация

QGLIGHT-XU2016. Haowei Xu, Bo-Qiang Ma. Light speed variation from gamma ray burst GRB 160509A. Phys. Lett. B 760 (2016) 602-604 (arXiv:1607.08043 [hep-ph]).
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Квантовая логика

QGL-CHIARA2009. Guido Bacciagaluppi. Is Logic Empirical? in D. Gabbay, D. Lehmann and K. Engesser (eds), Handbook of Quantum Logic (Amsterdam: Elsevier, 2009), pp. 49-78 (also under http://philsci-archive.pitt.edu/archive/00003380/ ).
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QGL-CHIARA. M.L. Dalla Chiara, R. Giuntini. Quantum Logic. arXiv:quant-ph/0101028v2.
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QGL-PAVICIC2008. Mladen Pavicic, Norman D. Megill. Is Quantum Logic a Logic? arXiv:0812.2698v1 [quant-ph]
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Квантовая теория вообще

QT-BASSI2012. Angelo Bassi, Kinjalk Lochan, Seema Satin, Tejinder P. Singh, Hendrik Ulbricht. Models of Wave-function Collapse, Underlying Theories, and Experimental Tests. arXiv:1204.4325v1 [quant-ph].
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QT-BELINCHIA2018. Alessio Belenchia, Robert Wald, Flaminia Giacomini, Esteban Castro-Ruiz, Časlav Brukner, Markus Aspelmeyer. Quantum Superposition of Massive Objects and the Quantization of Gravity. arXiv:1807.07015 [quant-ph].
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QT-CHIRIBELLA2011. Giulio Chiribella, Giacomo Mauro D’Ariano, Paolo Perinotti. Informational derivation of quantum theory. PHYSICAL REVIEW A 84, 012311 (2011).
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QT-CHRISTIAN2011. Joy Christian. Disproof of Bell's Theorem. arXiv:1103.1879v1 [quant-ph].
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QT-GAMBINI2009. Rodolfo Gambini, Jorge Pullin. The Montevideo interpretation of quantum mechanics: frequently asked questions. arXiv:0905.4402v1 [quant-ph].
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QT-GAMBINI2010. Rodolfo Gambini, Luis Pedro Garcia-Pintos, Jorge Pullin. Complete quantum mechanics: an axiomatic formulation of the Montevideo interpretation. arXiv:1002.4209v1 [quant-ph].
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QT-GAMBINI2011. Rodolfo Gambini, Luis Pedro Garcia-Pintos, Jorge Pullin. An axiomatic formulation of the Montevideo interpretation of quantum mechanics. arXiv:1002.4209v2 [quant-ph].
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QT-GRIB1984. А.А. Гриб. Неравенства Белла и экспериментальная проверка квантовых корреляций на макроскопических расстояниях. УФН, Т.142 С.619-634 (1984).
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QT-KENT2011. Adrian Kent. The Many Worlds of Hugh Everett III. arXiv:1103.4163v1 [physics.hist-ph].
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QT-KENT2012. Adrian Kent. Quantum Tasks in Minkowski Space. arXiv:1204.4022v1 [quant-ph].
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QT-KIEFER2019. Claus Kiefer. Does the quantum mechanical wave function exist? arXiv:1908.04607 [quant-ph].
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QT-HOEHN. Philipp A Hoehn. Quantum theory from rules on information acquisition. arXiv:1612.06849 [quant-ph].
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QT-LLOYD2010B. Seth Lloyd, Lorenzo Maccone, Raul Garcia-Patron, Vittorio Giovannetti, Yutaka Shikano. The quantum mechanics of time travel through post-selected teleportation. arXiv:1007.2615v2 [quant-ph].
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QT-LLOYD2011. Seth Lloyd, Lorenzo Maccone, Raul Garcia-Patron, Vittorio Giovannetti, Yutaka Shikano, Stefano Pirandola, Lee A. Rozema, Ardavan Darabi, Yasaman Soudagar, Lynden K. Shalm, Aephraim M. Steinberg. Closed timelike curves via post-selection: theory and experimental demonstration. Phys.Rev.Lett.106:040403,2011 (arXiv:1005.2219v1 [quant-ph]).
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QT-MEGIDISH2012. E. Megidish, A. Halevy, T. Shacham, T. Dvir, L. Dovrat, H. S. Eisenberg. Entanglement Between Photons that have Never Coexisted. arXiv:1209.4191 [quant-ph].
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QT-MENSKY2007A. M. B. Mensky. Reality in quantum mechanics, Extended Everett Concept, and consciousness. Optics and Spectroscopy, Volume 103, Issue 3, pp.461-467. (arXiv:physics/0608309)
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QT-MENSKY2007B. M. B. Mensky. Postcorrection and mathematical model of life in Extended Everett's Concept. eprint arXiv:0712.3609
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QT-MENSKY2009. M. B. Mensky. Quantum features of consciousness, computers and brain. arXiv:0910.4300 [physics.gen-ph]
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QT-MENSKY2013. M. B. Mensky. Everett Interpretation and Quantum Concept of Consciousness. NeuroQuantology | March 2013 | Vol 11 | Issue 1 | Suppl 1| Page 85-96.
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QT-NICOLIC2010. H. Nikolic. Closed timelike curves, superluminal signals, and "free will" in universal quantum mechanics. arXiv:1006.0338v1 [quant-ph].
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QT-PAGE2011. Don N. Page. Consciousness and the Quantum. arXiv:1102.5339v1 [quant-ph].
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QT-SMOLIN2011. Lee Smolin. A real ensemble interpretation of quantum mechanics. arXiv:1104.2822v1 [quant-ph].
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QT-SMOLIN2015. Lee Smolin. Quantum mechanics and the principle of maximal variety. arXiv:1506.02938 [quant-ph].
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QT-SUSSKIND2016. Leonard Susskind. Copenhagen vs Everett, Teleportation, and ER=EPR. arXiv:1604.02589 [hep-th].
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QT-TEGMARK2014. Max Tegmark. Consciousness as a State of Matter. arXiv:1401.1219 [quant-ph].
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QT-ZEH2012. H. Dieter Zeh. The role of the observer in the Everett interpretation. arXiv:1211.0196 [quant-ph].
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QT-ZEH2016. H. Dieter Zeh. The strange (hi)story of particles and waves. arXiv:1304.1003 [physics.hist-ph].
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OUTOFNOWHERE: Главы из книги

QT-OUTOFNOWHERE-2-2020. Christian Wüthrich, Nick Huggett. Out of Nowhere: Spacetime from causality: causal set theory. arXiv:2005.10873 [physics.hist-ph].
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QT-OUTOFNOWHERE-7-2020. Nick Huggett, Christian Wüthrich. Out of Nowhere: Duality. arXiv:2005.12728 [physics.hist-ph].
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QT-OUTOFNOWHERE-9-2020. Nick Huggett, Christian Wüthrich. Out of Nowhere: The 'emergence' of spacetime in string theory. arXiv:2005.10943 [gr-qc].
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OPERA: Эксперимент OPERA: превышение скорости света и прочее

OPERA-OPERA-Nu-2011. OPERA collaboration Measurement of the neutrino velocity with the OPERA detector in the CNGS beam arXiv:1109.4897
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OPERA-AmelinoCamelia2011. Giovanni Amelino-Camelia, Giulia Gubitosi, Niccoló Loret, Flavio Mercati, Giacomo Rosati, Paolo Lipari OPERA-reassessing data on the energy dependence of the speed of neutrinos arXiv:1109.5172v1 [hep-ph]
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OPERA-CACCIAPAGLIA2011. Giacomo Cacciapaglia, Aldo Deandrea, Luca Panizzi Superluminal neutrinos in long baseline experiments and SN1987a arXiv:1109.4980v1 [hep-ph]
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OPERA-PFEIFER2011. Christian Pfeifer, Mattias N.R. Wohlfarth Beyond the speed of light on Finsler spacetimes arXiv:1109.6005v2 [gr-qc]
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OPERA-CONTALDI2011. Carlo R. Contaldi. The OPERA neutrino velocity result and the synchronisation of clocks arXiv:1109.6160v2 [hep-ph]
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Particle Physics Survey: Phys.Lett.B V.592 (2004) 1-1109

Title (1-5).
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Content (6-8).
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Introduction and online sources (11-28).
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Summary tables of particle properies (31-88).
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Constants, Units, Atomic and Nuclear Properties (91-103).
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Standard Model and Related Topics (104-185).
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Astrophysics and cosmology (186-234).
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Experimental Methods and Colliders (235-274).
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Mathematical Tools or Statistics, Monte Carlo, Group Theory (275-297).
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Kinematics, Cross-Section Formulae, and Plots (298-320).
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PARTICLE LISTINGS: Illustrative key and abbreviations (323-332).
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Gauge and Higgs bosons (335-404).
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Leptons (407-470).
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Quarks (473-492).
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Exoplanets

PLANETS-KEPLER-2011-OVERVIEW. William J. Borucki, David G. Koch, Gibor Basri, Natalie Batalha, Timothy M. Brown, Stephen T. Bryson, Douglas Caldwell, Jørgen Christensen-Dalsgaard, William D. Cochran, Edna DeVore, Edward W. Dunham, Thomas N. Gautier III, John C. Geary, Ronald Gilliland, Alan Gould, Steve B. Howell, Jon M. Jenkins, David W. Latham, Jack J. Lissauer, Geoffrey W. Marcy, Jason Rowe, Dimitar Sasselov, Alan Boss, David Charbonneau, David Ciardi, Laurance Doyle, Andrea K. Dupree, Eric B. Ford, Jonathan Fortney, Matthew J. Holman, Sara Seager, Jason H. Steffen, Jill Tarter, William F. Welsh, Christopher Allen, Lars A. Buchhave, Jessie L. Christiansen, Bruce D. Clarke, Jean-Michel Désert, Michael Endl, Daniel Fabrycky, Francois Fressin, Michael Haas, Elliott Horch, Andrew Howard, Howard Isaacson, Hans Kjeldsen, Jeffery Kolodziejczak, Craig Kulesa, Jie Li, Pavel Machalek, Donald McCarthy, Phillip MacQueen, Søren Meibom, Thibaut Miquel, Andrej Prsa, Samuel N. Quinn, Elisa V. Quintana, Darin Ragozzine, William Sherry, Avi Shporer, Peter Tenenbaum, Guillermo Torres, Joseph D. Twicken, Jeffrey Van Cleve, Lucianne Walkowicz et al. (19 additional authors not shown) Characteristics of planetary candidates observed by Kepler, II: Analysis of the first four months of data. arXiv:1102.0541v1 [astro-ph.EP].
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Пульсары

PULS-ATNF2004. R.N. Manchester, G.B. Hobbs, A. Teoh, M. Hobbs. The ATNF Pulsar Catalogue. arXiv:astro-ph/0412641v1.
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PULS-ARONS2007. Jonathan Arons. Pulsars: Progress, Problems and Prospects. arXiv:0708.1050.
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PULS-BARING2010. Matthew G. Baring. Lepton Acceleration in Pulsar Wind Nebulae. arXiv:1007.3699v1 [astro-ph.HE]
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PULS-FERMI2009. A.A. Abdo, for the Fermi LAT collaboration. The First Fermi Large Area Telescope Catalog of Gamma-ray Pulsars [См. последнюю версию!!!]. arXiv:0910.1608v3 [astro-ph.HE]
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PULS-FERMI2011. H. J. Pletsch, L. Guillemot, B. Allen, M. Kramer, C. Aulbert, H. Fehrmann, P. S. Ray, E. D. Barr, A. Belfiore, F. Camilo, P. A. Caraveo, O. Celik, D. J. Champion, M. Dormody, R. P. Eatough, E. C. Ferrara, P. C. C. Freire, J. W. T. Hessels, M. Keith, M. Kerr, A. de Luca, A. G. Lyne, M. Marelli, M. A. McLaughlin, D. Parent, S. M. Ransom, M. Razzano, W. Reich, P. M. Saz Parkinson, B. W. Stappers, M. T. Wolff. Discovery of Nine Gamma-Ray Pulsars in Fermi-LAT Data Using a New Blind Search Method. arXiv:1111.0523v1 [astro-ph.HE]
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PULS-GEHRELS1993. N. Gehrels, W. Chen. The Geminga supernova as a possible cause of the Local Interstellar Bubble. Nature (ISSN 0028-0836), vol. 361, no. 6414, p. 706, 707.
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PULS-KIRK2007. J.G. Kirk , Y. Lyubarsky, and J. Petri. The theory of pulsar winds and nebulae. arXiv:astro-ph/0703116.
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PULS-LYNE1994. A.G Lyne, D.R. Lorimer. High birth velocities of radio pulsars. Nature, 1994, V.369, p.127-129.
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PULS-KUHFITTING2012. Peter K. F. Kuhfittig. Neutron star interiors and topology change. arXiv:1207.6602v1 [gr-qc].
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PULS-SLANE2010. Patrick Slane. Multiwavelength Observations of Pulsar Wind Nebulae. arXiv:1008.4741v1 [astro-ph.HE]
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SETI, астробиология, универсальная эволюция, антропный принцип, планетология

SETI-ATA2009. ATA collaboration: Jack Welch, Don Backer, Leo Blitz, Douglas Bock, Geoffrey C. Bower, Calvin Cheng, Steve Croft, Matt Dexter, Greg Engargiola, Ed Fields, James Forster, Colby Gutierrez-Kraybill, Carl Heiles, Tamara Helfer, Susanne Jorgensen, Garrett Keating, John Lugten, Dave MacMahon, Oren Milgrome, Douglas Thornton, Lynn Urry, Joeri van Leeuwen, Dan Werthimer, Peter H. Williams, Melvin Wright Jill Tarter, Robert Ackermann, Shannon Atkinson, Peter Backus, William Barott, Tucker Bradford, Michael Davis, Dave DeBoer, John Dreher, Gerry Harp, Jane Jordan, Tom Kilsdonk, Tom Pierson, Karen Randall, John Ross, Seth Shostak Matt Fleming, Chris Cork, Artyom Vitouchkine Niklas Wadefalk, Sander Weinreb. The Allen Telescope Array: The First Widefield, Panchromatic, Snapshot Radio Camera for Radio Astronomy and SETI. arXiv:0904.0762v1 [astro-ph.IM]. (Special Issue of Proceedings of the IEEE: "Advances in Radio Telescopes", Baars,J. Thompson,R., D'Addario, L., eds, 2009, in press)
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SETI-ATA2010. G. R. Harp, P. R. Backus, T. N. Kilsdonk, J. C. Jordan, J. C. Tarter. Recent SETI Results With Observations at the ATA. Astrobiology Science Conference 2010: Evolution and Life: Surviving Catastrophes and Extremes on Earth and Beyond, held April 26-20, 2010 in League City, Texas. LPI Contribution No. 1538, p.5558
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SETI-ATA2011. Tarter, Jill; Ackermann, Robert; Barott, William; Backus, Peter; Davis, Michael; Dreher, John; Harp, Gerald; Jordan, Jane; Kilsdonk, Tom; Shostak, Seth; Smolek, Ken. The first SETI observations with the Allen telescope array. Acta Astronautica, v. 68, iss. 3-4, p. 340-346.
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SETI-ATA2012. G. R. Harp, R. F. Ackermann, Samantha K. Blair, J. Arbunich, P. R. Backus, J. C. Tarter, the ATA Team. A new class of SETI beacons that contain information (22-aug-2010). arXiv:1211.6470 [astro-ph.IM].
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SETI-BUCHHAVEL2012. Lars A. Buchhave1, David W. Latham, Anders Johansen, et al. An abundance of small exoplanets around stars with a wide range of metallicities. Nature, V. 486, 2012, p. 375-377.
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SETI-BUSCH2009. Michael W. Busch, Rachel M. Reddick. Testing SETI Message Designs. arXiv:0911.3976v2 [astro-ph.IM].
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SETI-CHURAKOV2009. Д. А. Чураков. Анализ работы планетных радаров применительно к SETI и METI. ЖУРНАЛ РАДИОЭЛЕКТРОНИКИ (электронный журнал, ISSN 1684-1719), N 3, 2009. http://jre.cplire.ru/jre/mar09/2/text.html
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SETI-COCCONI-MORRISON1959. Giuseppe Cocconi. Philip Morrison. Searching for interstellar comminications. Nature, 1959, V. 184(4690), 844-846
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SETI-DUMAS2015. Stephane Dumas. CATALOGUE OF SETI PUBLICATIONS. Unpublished
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SETI-GARRETT2017. Michael Garrett (JBCA/Leiden), Andrew Siemion (Berkeley), Wim van Cappellen (ASTRON). All-sky Radio SETI. arXiv:1709.01338 [astro-ph.IM]
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SETI-GERIG2012. Austin Gerig. The Doomsday Argument in Many Worlds. arXiv:1209.6251 [physics.pop-ph].
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SETI-GINDILIS-1996-ASP. Л.М. Гиндилис. Аcтросоциологический парадокс в проблеме SETI. В кн.: Астрономия и современная картина мира. Российская Академия Наук, Институт философии. М.: 1996, с. 203-231.
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SETI-GLEISER2010. Marcelo Gleiser. Drake Equation for the Multiverse: From the String Landscape to Complex Life. arXiv:1002.1651v1 [hep-th]
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SETI-GOWANLOCK2011. Michael G. Gowanlock, David R. Patton, Sabine M. McConnell. A Model of Habitability Within the Milky Way Galaxy. arXiv:1107.1286v1 [astro-ph.EP].
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SETI-HARA2012. Tetsuya Hara, Kazuma Takagi, Daigo Kajiura. Transfer of Life-Bearing Meteorites from Earth to Other Planets. arXiv:1204.1719v1 [astro-ph.EP].
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SETI-HOGAN1999. Craig J. Hogan. Why the Universe is Just So. arXiv:astro-ph/9909295v2, Rev.Mod.Phys.72:1149-1161,2000
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SETI-KAZYUTINSKI1989. В.В. Казютинский, Ю.В. Балашов. АНТРОПНЫЙ ПРИНЦИП. История и современность. Природа, N1 (1989)
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SETI-MORTIER2013. A. Mortier, N. C. Santos, S. Sousa, G. Israelian, M. Mayor, and S. Udry. On the functional form of the metallicity-giant planet correlation. A&A, V.551, 2013, A112
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SETI-PENROSE2015. V. G. Gurzadyan, R. Penrose. CCC and the Fermi paradox. arXiv:1512.00554 [astro-ph.CO]
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SETI-SIEMON2013. Andrew P. V. Siemion, Paul Demorest, Eric Korpela, Ron J. Maddalena, Dan Werthimer, Jeff Cobb, Andrew W. Howard, Glen Langston, Matt Lebofsky, Geoffrey W. Marcy, Jill Tarter. A 1.1 to 1.9 GHz SETI Survey of the Kepler Field: I. A Search for Narrow-band Emission from Select Targets. arXiv:1302.0845 [astro-ph.GA].
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SETI-SHCHERBAK2013. Vladimir I. shCherbak and Maxim A. Makukov. The "Wow! signal" of the terrestrial genetic code. arXiv:1303.6739.
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SETI-SKA2014. Andrew P. V. Siemion, James Benford, Jin Cheng-Jin, Jayanth Chennamangalam, James Cordes, David R. DeBoer, Heino Falcke, Mike Garrett, Simon Garrington, Leonid Gurvits, Melvin Hoare, Eric J. Korpela, Joseph Lazio, David Messerschmitt, Ian S. Morrison, Tim O'Brien, Zsolt Paragi, Alan Penny, Laura Spitler, Jill Tarter, Dan Werthimer Searching for Extraterrestrial Intelligence with the Square Kilometre Array arXiv:1412.4867 [astro-ph.IM]
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SETI-SULLIVAN1978. W. T. Sullivan III, S. Brown, C. Wethe. Eavesdropping: The Radio Signature of the Earth Science, 1978, V. 199, Number 4327, P.377-388.
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Сверхновая 1987А

SN1987A-IMSHENNIK1988. В.С. Имшенник, Д.К. Надёжин. Сверхновая 1987А в Большом Магеллановом Облаке: наблюдения и теория. УФН, Т. 156, Вып.4, С.561-651.
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SN1987A-MORRISON1988. Д.Р.О. Моррисон. Сверхновая 1987А: обзор. УФН, Т. 156, Вып.4, С.719-752.
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Теория струн

STR-ADDAZI2018. Andrea Addazi, Antonino Marciano. Self-dual formulation of gravity in topological M-theory. arXiv:1802.09940 [hep-th]
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STR-BANKS2012. T. Banks. The Top 10^{500} Reasons Not to Believe in the Landscape. arXiv:1208.5715v1 [hep-th]
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STR-BEDFORD2011. James Bedford. An Introduction to String Theory. arXiv:1107.3967v1 [hep-th]
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STR-BERMAN2019. David S. Berman, Chris D. A. Blair, Ray Otsuki. Non-Riemannian geometry of M-theory [O(d,d) etc]. arXiv:1902.01867 [hep-th]
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STR-GIDDINGS2011. Steven B. Giddings. Is string theory a theory of quantum gravity? arXiv:1105.6359v2 [hep-th]
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STR-KKLT2003. Shamit Kachru, Renata Kallosh, Andrei Linde, Sandip P. Trivedi. de Sitter Vacua in String Theory. Phys.Rev.D68:046005,2003 (arXiv:hep-th/0301240v2)
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STR-MARVOMATOS2009. Nick E. Mavromatos. Probing Lorentz Violating (Stringy) Quantum Space-Time Foam. arXiv:0909.2319v1 [hep-th]
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STR-MOROZOV1992. А.Ю. Морзов. Теория струн - что это такое?. УФН, 1992, Т.162, No8, С.83-175
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STR-MUKHI2011. Sunil Mukhi. String theory: a perspective over the last 25 years. arXiv:1110.2569v3 [physics.pop-ph]
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STR-SEN2015. Ashoke Sen. Ultraviolet and Infrared Divergences in Superstring Theory. arXiv:1512.00026 [hep-th] [hep-th]
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STR-SEN2017. Ashoke Sen. Background Independence of Closed Superstring Field Theory. arXiv:1711.08468 [hep-th]
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STR-TONG2009. David Tong. Lectures on String Theory. arXiv:0908.0333 [hep-th]
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STR-Tseytlin2008. A.A. Tseytlin. Introductory Lectures on String Theory. arXiv:0808.0663v3 [physics.pop-ph]
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Суперсимметрия

SUSY-DUPLIJ2019. Steven Duplij (University of Münster). Supergravity was discovered by D.V. Volkov and V.A. Soroka in 1973, wasn't it? arXiv:1910.03259 [physics.hist-ph]
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SUSY-FERRARA2017. S. Ferrara, A. Sagnotti. Supergravity at 40: Reflections and Perspectives. arXiv:1702.00743 [hep-th]
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SUSY-MARTIN1997. Stephen P. Martin. A Supersymmetry Primer. arXiv:hep-ph/9709356
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SUSY-DREES1996. Manuel Drees. An Introduction to Supersymmetry. arXiv:hep-ph/9611409
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SUSY-IVANOV2013. Igor Ivanov. Суперсимметрия в свете данных LHC: что делать дальше? http://elementy.ru/news?newsid=432038
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SUSY-MANNHEIM2015. Philip D. Mannheim. Living Without Supersymmetry -- the Conformal Alternative and a Dynamical Higgs Boson. arXiv:1506.01399 [hep-ph]
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SWAMPLAND

SWAMPLAND-PALTI2019. Eran Palti. The Swampland: Introduction and Review. arXiv:1903.06239 [hep-th]
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SYK теория

SYK-MALDACENA2016. Juan Maldacena, Douglas Stanford. Comments on the Sachdev-Ye-Kitaev model. Phys. Rev. D 94, 106002 (2016) [arXiv:1604.07818 [hep-th]]
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Тахионы

TACH-AVELINO2010. P.P. Avelino, D. Bazeia, L. Losano, J.C.R.E. Oliveira, A.B. Pavan. Duality linking standard and tachyon scalar field cosmologies? arXiv:1006.2110v1 [astro-ph.CO]
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TACH-GEROCH2010. Robert Geroch. Faster Than Light? arXiv:1005.1614v1 [gr-qc]
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TACH-KREMER2008. Luis P. Chimento, Mónica Forte, Gilberto M. Kremer, Marlos O. Ribas. Tachyonization of the $\Lambda$CDM cosmological model. arXiv:0809.1919v2 [gr-qc]
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TACH-WANG2009. Z. Wang. Tachyonic equations to reduce the divergent integral of QED. arXiv:0911.2359v1 [hep-th]
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Дополнительные временные размерности

TD-ADAMO2015. Tim Adamo General relativity as a two-dimensional CFT. arXiv:1505.05679 [gr-qc]
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TD-AMBJORN2013. J. Ambjorn, T. Budd. Two-Dimensional Quantum Geometry. arXiv:1310.8552 [hep-th]
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TD-BATISTA2012. Carlos Batista, Bruno Carneiro da Cunha. Spinors and the Weyl Tensor Classification in Six Dimensions. J. Math. Phys. 54 (2013), 052502 (arXiv:1212.2689 [gr-qc])
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TD-CARLIP2009. Steven Carlip. Spontaneous Dimensional Reduction in Short-Distance Quantum Gravity? arXiv:0909.3329v1 [gr-qc]
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TD-CARLIP2010. Steven Carlip. The Small Scale Structure of Spacetime [Речь идет о том, что на малых расстояниях физика (квантовое пространство-время) становится двухмерной. Это вполне может уравнивать в правах пространство и время, восстанавливая полную их симметрию, что, правда, в этой статье не замечено]. arXiv:1009.1136v1 [gr-qc]
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TD-CARLIP2017. S. Carlip. Dimension and Dimensional Reduction in Quantum Gravity. arXiv:1705.05417 [gr-qc].
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TD-HO2012. Chiu Man Ho, Thomas J. Weiler. Physical and Stable Closed Timelike Curves. arXiv:1209.3107 [gr-qc]
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TD-LARRAQUIVEL2016. Helder Larraguivel, Gustavo V. Lopez, Juan A. Nieto Nanbu-Goto action and qubit theory in any signature and higher dimensions. arXiv:1603.05943 [gr-qc]
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TD-NIETO2011. J. A. Nieto. Canonical gravity in two time and two space dimensions. arXiv:1107.0718v2 [gr-qc]
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TD-PACSIC2011. Matej Pavšič. Extra Time Like Dimensions, Superluminal Motion, and Dark Matter? arXiv:1110.4754v1 [gr-qc]
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TD-PIROGOV2001. Yu. F. Pirogov. Symplectic vs pseudo-Euclidean space-time with extra dimensions. arXiv:hep-ph/0105112v1
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TD-SEGNOR2013. Gizem Şengör, Metin Arık. A Five Dimensional Cosmological Model With A Fifth Dimension as Fundamental as Time. arXiv:1302.0947 [gr-qc]
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TD-SPARLING2004. George Sparling. A primordial theory. arXiv:cond-mat/0401015 v1. (Примечание: Spin(4,4)-группа и т.д.)
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TD-SPARLING2006. George A.J. Sparling. Spacetime is spinorial; new dimensions are timelike. arXiv:gr-qc/0610068 v1
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TD-WANG2010. Shun-Zhi Wang. Hexad Preons and Emergent Gravity in 3-dimensional Complex Spacetime [Есть хороший обзор дополнительных временных размерностей]. arXiv:1007.0067v1 [gr-qc]
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TLFQX-WEINSTEIN2009. Steven Weinstein. Many Times. FQXi 'The Nature of Time' Essay Contest
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TD-YOON2013. Jong Hyuk Yoon Problem of time and Hamiltonian reduction in the (2+2) formalism. arXiv:1306.2375 [gr-qc
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Time-less physics, проблема времени, стрела

TL-AMBJORN2009. J. Ambjorn, R. Loll, W. Westra, S. Zohren Stochastic quantization and the role of time in quantum gravity. arXiv:0908.4224v1 [hep-th].
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TL-ANDREKA2012. Hajnal Andréka, Judit X. Madarász, István Németi, Gergely Székely A note on "Einstein's special relativity beyond the speed of light" by James M. Hill and Barry J. Cox. arXiv:1211.2246 [gr-qc].
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TL-ANDERSON2010. Edward Anderson. The Problem of Time in Quantum Gravity. arXiv:1009.2157v1 [gr-qc].
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TL-ANDERSON2012. Edward Anderson. Problem of Time in Quantum Gravity. arXiv:1206.2403v1 [gr-qc].
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TL-BARBOUR2013. Julian Barbour, Tim Koslowski, Flavio Mercati A Gravitational Origin of the Arrows of Time. arXiv:1310.5167 [gr-qc].
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TL-BOJOWALD2016. M. M. Amaral, Martin Bojowald A path-integral approach to the problem of time. arXiv:1601.07477 [gr-qc].
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TL-CARLIP2017. S. Carlip. Dimension and Dimensional Reduction in Quantum Gravity. arXiv:1705.05417 [gr-qc].
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TL-CHERKAS2020. S. L. Cherkas, V. L. Kalashnikov. Evidence of time evolution in quantum gravity. arXiv:2003.11284 [gr-qc]
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TL-COUMBE2015. Daniel Coumbe What is dimensional reduction really telling us? arXiv:1509.07665 [hep-th]
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TL-DAVIDSON2012. Aharon Davidson, Ben Yellin. Restoring Time Dependence into Quantum Cosmology. arXiv:1206.0830v1 [gr-qc].
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TL-DUBOVSKY2008. Sergei Dubovsky, Sergey Sibiryakov. Superluminal Travel Made Possible (in two dimensions). arXiv:0806.1534v2 [hep-th].
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TL-DUBOVSKY2011. Sergei Dubovsky, Victor Gorbenko. Superluminal Travel, UV/IR Mixing and Turbulence in the Lineland. arXiv:1108.2891v1 [hep-th].
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TL-FLETCHER2017. Samuel C. Fletcher, John Byron Manchak, Mike D. Schneider, James Owen Weatherall. Would Two Dimensions be World Enough for Spacetime? arXiv:1709.07438 [physics.hist-ph].
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TL-GIRELLI2009. F. Girelli, S. Liberati, L. Sindoni. Is the notion of time really fundamental? arXiv:0903.4876v1 [gr-qc].
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TL-HARTLE2011. James Hartle, Thomas Hertog Arrows of Time in the Bouncing Universes of the No-boundary Quantum State. arXiv:1104.1733v1 [hep-th]
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TL-HARTLE2013. James B. Hartle The Quantum Mechanical Arrows of Time. arXiv:1301.2844 [quant-ph].
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TL-JIN2014. Congrui Jin, Markus Lazar. A note on Lorentz-like transformations and superluminal motion. arXiv:1403.5988 [gr-qc].
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TL-KIEFER2009B. Claus Kiefer Can the Arrow of Time be understood from Quantum Cosmology?. arXiv:0910.5836v1 [gr-qc] (to appear in "The Arrow of Time", ed. by L. Mersini-Houghton and R. Vaas)
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TL-ROVELLI2019. Carlo Rovelli. Can we travel to the past? Irreversible physics along closed timelike curves. arXiv:1912.04702 [gr-qc].
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TL-SHOSHANY2019. Barak Shoshany. Lectures on Faster-than-Light Travel and Time Travel. arXiv:1907.04178 [gr-qc].
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TL-SMOLIN2001. Lee Smolin. The present moment in quantum cosmology: challenges to the arguments for the elimination of time. arXiv:gr-qc/0104097v1.
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TL-FQX-ZEH2010. H. D. Zeh. The Nature and Origin of Time-asymmetric Spacetime Structures. arXiv:1012.4708v1 [gr-qc]
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TL-NOORBALA2016. Mahdiyar Noorbala SpaceTime from Hilbert Space: Decompositions of Hilbert Space as Instances of Time. arXiv:1609.01295 [hep-th].
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TL-ROTONDO2019. Marcello Rotondo, Yasusada Nambu. Clock Time in Quantum Cosmology. arXiv:1901.02767 [gr-qc]
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TL-ZEH2010-V3. H. D. Zeh The Nature and Origin of Time-asymmetric Spacetime Structures. arXiv:1012.4708v3 [gr-qc].
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Time-FQX contest 2009

TLFQX-BARBOUR2009. Julian Barbour. THE NATURE OF TIME. (First prize of the FQXi 'The Nature of Time' Essay Contest)
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TLFQX-CALLENDER2009. Craig Callender. What Makes Time Special.
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TLFQX-CARROLL2009. Sean M. Carroll. What if Time Really Exists?.
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TLFQX-DREYER2009. Olaf Dreyer. Time is not the problem.
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TLFQX-ELLIS2009. George F R Ellis. ON THE FLOW OF TIME.
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TLFQX-GAMBINI2009. Rodolfo Gambini, Jorge Pullin. Free will, undecidability, and the problem of time in quantum gravity.
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TLFQX-HESTENES2009. David Hestenes. Electron time, mass and zitter.
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TLFQX-KIEFERS2009A. Claus Kiefer. DOES TIME EXIST IN QUANTUM GRAVITY? arXiv:0909.3767v1 [gr-qc]
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TLFQX-MARKOPOLOU2009. Fotini Markopoulou. Space does not exist, so time can. arXiv:0909.1861v1 [gr-qc]. (Third prize of the FQXi 'The Nature of Time' Essay Contest)
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TLFQX-MERSINI2009. L.Mersini-Houghton. Notes on Time's Enigma. arXiv:0909.2330v1 [gr-qc]. (FQXi 'The Nature of Time' Essay Contest)
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TLFQX-RICKLES2009. Dean Rickles. Time, TOEs, and UltraStructuralism.
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TLFQX-ROVELLI2009. Carlo Rovelli. "Forget time". arXiv:0903.3832v3.
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TLFQX-WEINSTEIN2009. Steven Weinstein. Many Times.
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Время в квантовой гравитации (геометродинамика Уилера-ДеВитта и др.)

TQG-BILSKI2017. Jakub Bilski, Antonino Marciano. 2+1 homogeneous Loop Quantum Gravity with a scalar field clock.
arXiv:1707.00723 [gr-qc]
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TQG-MALKIEWICZ2015. Przemyslaw Malkiewicz. What is Dynamics in Quantum Gravity?
Class. Quantum Grav. 34 (2017) 205001 (arXiv:1505.04730 [gr-qc])
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TQG-MALKIEWICZ2017. Przemysław Małkiewicz, Artur Miroszewski. Internal clock formulation of quantum mechanics.
arXiv:1706.00743 [gr-qc]
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TQG-SHESTAKOVA2018. T. P. Shestakova. Is the Wheeler -- DeWitt equation more fundamental than the Schrödinger equation?
Int. J. Mod. Phys. D27 (2018) 1841004, arXiv:1801.01351 [gr-qc]
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TQG-WEINSTEIN2017. Nirmalya Kajuri. The time measurement problem in quantum cosmology.
arXiv:1705.07102 [gr-qc]
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Worm holes, кротовые норы

WH-GONZALES2011. Pedro F. González-Díaz, Ana Alonso-Serrano Observing other universe through ringholes and Klein-bottle holes. arXiv:1102.3784v1 [astro-ph.CO].
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WH-KARDASHED2006. N.S. Kardashev, I.D. Novikov, A.A. Shatskiy Astrophysics of Wormholes. Int.J.Mod.Phys.D16:909-926,2007, arXiv:astro-ph/0610441v2 .
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WH-KRECHET2009. V. G. Krechet, D. V. Sadovnikov Spin-spin interaction in general relativity and induced geometries with nontrivial topology. Grav. Cosmol. 15 (4), 337-340 (2009), arXiv:0912.2181v1 [gr-qc] .
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WH-NOVIKOV2007. И.Д. Новиков, Н.С. Кардашев, А.А. Шацкий Многокомпонентная Вселенная и астрофизика кротовых нор. УФН, Т.177 No9 С. 1017-1023 (2007) .
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WH-NOVIKOV2018. И.Д. Новиков. Новая концепция кротовых нор и Мультивселенная. УФН, Т.188 No3 С. 301-310 (2007) .
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WH-SHATSKIY2008A. A. Shatskiy, I.D. Novikov, N.S. Kardashev New analytic models of traversable wormholes. Phys.Usp.51:457-464,2008, arXiv:0810.0468v1 [gr-qc] .
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WH-SHATSKIY2008B. А.А. Шацкий, И.Д. Новиков, Н.С. Кардашев. Динамическая модель кротовой норы и модель Мультивселенной. УФН, Т.178, No5 (2008), С. 481-488.
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Книги

Artificial Intelligence

Миссия AMS-02.

Общая астрофизика

Астрофизика - магнитные поля

AdS/CFT-соответствие

Астробиология

Эксперимент ATIC

Черные дыры (информация)

Эффект Казимира

Константы: вариации и прочее

Вычислительные методы и пакеты (аналитика в том числе)

Космические лучи (преимущественно адроны)

Космические лучи - ускорение

Космические лучи - анизотропия

Космические лучи - калориметрические прямые измерения

Электроны в космических лучах - эксперимент

Позитроны в космических лучах - эксперимент

Электроны в космических лучах - теория

ШАЛ

Электроны в космических лучах и темная материя

Ограничения на темную материю от гамма-спектроскопии и электроны в космических лучах

Гамма-астрономия и гамма-фон

Эмульсионные прямые эксперименты в космических лучах

Экстрагалактические космические лучи

Изотопы в космических лучах.

Космические лучи - магнитные спектрометры

Космические лучи - регистрация с использованием Луны

Космические лучи - ядра тяжелее гелия

Космические лучи - распространение

Космические лучи - сечения фрагментации и прочее

Космические лучи - ядра тяжелее железа.

Космология

Cosmic Microvave Background and Cosmology

Космология - эксперимент

Квантовая космология

Петлевая квантовая космология

Темная материя: прямые эксперменты и др.

Звезды из темной материи

Экспериментальная физика планковских энергий и квантовой гравитации

FQXI-2012

Нестандартные и обобщенные теории поля: групповые, топологические...

Общая физика

ОТО (и обобщения)

ОТО Эйнштейна-Картана

Биметрические и массивные теории гравитации

ОТО Эйнштейна-Картана, эксперимент

Принцип эквивалентности

Нарушение принципа эквивалентности

Horava-Lifshiz theory

ОТО как калибровочная теория

Гравитомагнетизм

Shape dynamics

Взаимодействие спина с гравитационным полем (плюс гравитационная оптика)

Гравитационные волны

К докладу Grenier

Хигсовский бозон и обсуждение стандартной модели

Голографические модели

icrc32, OG1 секция

История и философия физики

Информация

Происхождение жизни

Результаты LHC

Лоренц-инваринтность и другие эксперименты квантовой гравитации

Марс: радиационная безопасность и др.

Математика (категории, топосы, спиноры и обобщения...)

Отрицательные массы

Нейтрино (осцилляции и прочее), мюоны

Эксперимент НУКЛОН

Ядерные взаимодействия

Релятивистская гидродинамика

Quantum computers

Квантовая гравитация

Квантовая гравитация - причинные множества

Квантовая гравитация и голография

Петлевая квантовая гравитация

Непостоянство скорости света и квантовая гравитация

Квантовая логика

Квантовая теория вообще

OUTOFNOWHERE: Главы из книги