Open Access
Issue
EPJ Web Conf.
Volume 145, 2017
ISVHECRI 2016 – XIX International Symposium on Very High Energy Cosmic Ray Interactions
Article Number 17001
Number of page(s) 8
Section Hybrid Experiments & Exotics II
DOI https://doi.org/10.1051/epjconf/201714517001
Published online 26 June 2017
  1. KhristiansenG.B., KulikovG.V. About the extensive air showers particles number spectrum, JETPh, 1958, 35, 3(9), p. 635–640 (in Russian) [Google Scholar]
  2. S.B. Shaulov, EAS data at the mountain level and a shape of the CR spectrum beyond the break., Nuclear Physics B (Proc. Suppl.) 122 (2003); arXiv:1610.07427v1 [astro-ph.HE] 24 Oct. 2016 [Google Scholar]
  3. PAMIR Collaboration, Investigation of nuclear interactions in the area of energies of 1014–1017 eV by EC method in cosmic rays (experiment “Pamir”), Trudy FIAN, 1984, 154, p. 3–141 (in Russian) [Google Scholar]
  4. S.B. Shaulov, Statistical criteria for the combination events in EXC and EAS (Exp.“Hadron”). Preprint FIAN, 1987, N 245, 3–12 [Google Scholar]
  5. N.A. Dobrotin. Short history of the first phase of expedition jobs on the cosmic rays in P.N.Lebedev Physical institute AS of the USSR, Moscow 1998 (in Russian) [Google Scholar]
  6. G.T. Zatsepin, Nuclear cascade process and its role in development of the EAS, DAN USSR, 1949, 67, p. 993 (in Russian) [Google Scholar]
  7. N.A. Dobrotin, G.T. Zatsepin, I.L. Rosental et al., Extenciv air showers of cosmic rays, Uspekhy Phys. Nauk, 1953, 49, p. 186 (in Russian) [Google Scholar]
  8. GusevaD.D. et al., New installation..., Izv. AN USSR, ser. phis., 1966, 30, p. 1574–1576 (in Russian) [Google Scholar]
  9. KotelnikovK.A., ShaulovS.B., ZvonkovJu.E., Two-gap spark chamber with area 6 m2, PTE, 1977, N5, p. 66–67 (in Russian) [Google Scholar]
  10. T.P. Amineva et al., Installation for EAS study..., Trudy FIAN, 1970, 46, p. 157–176, Moscow, Nauka (in Russian) [Google Scholar]
  11. BaradzeyL.T., KanevskayaE.A., SmorodinJu.A., Procedure of measuring of energy..., Trudy FIAN, 1970, 46, p. 200–211 (in Russian) [Google Scholar]
  12. NikolskyS.I., AseikinV.S., BenkoD., DanilovaT.V., KabanovaN.V., StamenovJ.N., Fluctuations of numbers of μ-meson and depandance of number of mesons on number of particles in showers at level of mountains, Izv. AN USSR, Ser. fiz. 34, N9, p. 1955–1957, 01.1970 (in Russian) [Google Scholar]
  13. YakovlevV.I., Long flying component: recent data and interpretation, Int. Symp. on VHE CRI. Ann Arbor. USA, 1992, p. 154 [EDP Sciences] [Google Scholar]
  14. DreminI.M. et al., Monte Carlo simulations of long-flying cascades in cosmic rays and leading charm at SSC, Int. Symp. on VHE CRI. Ann Arbor, USA, 1992, p. 534 [Google Scholar]
  15. BasarovE.V., BeisembaevR.U., BesshapovS.P., VavilovYu.N., VildanovaL.I. Muon pairs observed on Tien Shan arrangement. Proc. 17-th ICRC, Paris, 7, p. 48–51; Besshapov S.P., Vavilov Yu. N. The possible role of heavy long living hadrons in muon pair creation by EAS hadrons in dense substance. Proc. 18-th ICRC, Bangalore, 1983, 5, p. 106–109 [Google Scholar]
  16. D.G. Benko, G. Erdos, S.I. Nikolsky, N.M. Nesterova, V.A. Romakhin, A.P. Chubenko, A.L. Shchepetov, A. Somogyi, A. Varga, Search for sources of primary cosmic rays at energies above 0.1 PeV at the Tien Shan, Nuclear Physics B (Proc. Suppl.), 2008, 175–176, p. 541–543, XIV ISVHECRI, 2006, Weihai, China [CrossRef] [Google Scholar]
  17. RapoportI.D., Photographic method of dense showers detection for the charged particles, JETF 34, 1958, p. 998–1000 (in Russian) [Google Scholar]
  18. RakobolskayaI.V., monograph, The investigation of muons of super high energies, 1975, Izd. NAUKA, p. 3–210 (in Russian) [Google Scholar]
  19. HlytchievaV.S., SveshnikovaL.G. et al. Anomalies of hadron attenuation at large depth of lead. Proc. of 6 ISVHECRI. Tarbes. France. 1990, p. 184; Arisawa T. et al. Observation of attenuation behavior of hadrons in extremely high energy cosmic ray interactions: New hadronic state?, Nucl. Phys. B 424 (1994) 241–287 [Google Scholar]
  20. A.S. Borisov, Z.M. Guseva, V.G. Denisova et al., Coplanar particles emission in the process of the multiple births at high energies (experiment “Pamir”), Izv RAN, ser. fiz., 1994, 58, N12, p. 10–12 (in Russian) [Google Scholar]
  21. V.V. Arabkin, V.A. Borodkin, M.D. Smirnova, Yu.A. Smorodin, S.B. Shaulov. The haloes spectra of super families at the pressures 585 g/sm2 and 690 g/sm2 and nucleons absorption path at the energy about 1016 eV. 6-th ISVHECRI, Tarbe 1990, 257–260; Pamir Collaboration. Experimental researches of the halo at superfamilies. Izv. AN USSR. Ser. fiz., 1982, 46, 9, 1790–1792 (in Russian) [Google Scholar]
  22. S.B. Shaulov, Cosmic rays about strange quark stars, monography, ISBN: 978-3-659-77433-1, LAP LAMBERT Academic Pablishin, Deutchland, 2015, p. 1–129 [Google Scholar]
  23. ArabkinV.V., CherdyntcevaK.V. et al, The abnormal behaviour of γ-ray families characteristics at primary energy 1016 eV, Izv. AN USSR, ser. fiz. 55, N4, p. 674–677, 1991 (in Russian) [Google Scholar]
  24. S.B. Shaulov, S.P. Bezshapov, Looking for Strange Quark Matter in Cosmic Rays, Proc. of XVII ISVHECRI 2012, European Physical Journal, Web of Conferences 52, 04010, p. 1–8 (2013) [Google Scholar]
  25. S.B. Shaulov, Hypothesis of strange quark matter in cosmic rays, Preprint FIAN, N19, p. 3–42, 2012, Moscow [Google Scholar]
  26. S.B. Shaulov et al., A peculiarity of high energy gamma-rays absorption in the atmosphere (EC data), Nuclear Physics B (Proc. Suppl.) 122 (2003) [EDP Sciences] [Google Scholar]
  27. A.M. Dunaevsky, M.V. Zimin, Study of the detection of gamma-hadron families in carbon chamber, BULLETIN de la société des sciences et des lettres de LÓDŹ, série: recherches sur les déformations, vol. XVI, 1994 [Google Scholar]
  28. V.P. Pavluchenko and Collaboration GAMMA, Bulletin of the Lebedev Physics Institute, 2014, 40(5), p. 55 [Google Scholar]
  29. D. Ikeda for the Telescope Array collaboration*: Results from the Telescope Array Experiment, Astrophys. Space Sci. Trans. 7, 257–263, doi: 10.5194/astra-7-257-2011, 2011 [CrossRef] [Google Scholar]
  30. R.U. Abbasi, T. Abu-Zayyad, M. Allen et al., First Observation of the Greisen-Zatsepin-Kuzmin Suppression, Phys. Rev. Lett. 100, 101101, doi: 10.1103/PhysRevLett.100.101101, 2008a; http://arxiv.org/abs/astro-ph/0703099v2 15 Feb. 2008 [Google Scholar]
  31. ErlykinA.D., WolfendaleA.W., A single source of cosmic rays in the range 1015–1016 eV, J. Phys. G: Nucl. Part. Phys. 23 (1997) 979–989 [NASA ADS] [CrossRef] [Google Scholar]
  32. ErlykinA.D., WolfendaleA.W., High energy cosmic ray mass spectroscopy I. Status and prospects., Astroparticle Physics 7 (1997) 1–13 [CrossRef] [Google Scholar]
  33. A.D. Erlykin, A.W. Wolfendale, High energy cosmic ray mass spectroscopy II: Masses in the range 1014 − 1017 eV., Astroparticle Physics 7 (1997) 203–211 [CrossRef] [Google Scholar]
  34. A.D. Erlykin, M. Lipski, A.W. Wolfendale, High energy cosmic ray spectroscopy. IV. The evidence from direct observations at lower energies and directional anisotropies, Astroparticle Physics 8 (1998) 283–292 [CrossRef] [Google Scholar]

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