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Berezhnev, S. F.; Budnev, N. M.; Gress, O. A.; Dyachok, A. N.; Epimakhov, S. N.; Zagorodnikov, A. V.; Kalmykov, N. N.; Karpov, N. I.; Kozhin, V. A.; Konstantinov, E. N.; Korobchenko, A. V.; Korosteleva, E. E.; Kuzmichev, L. A.; Chiavassa, A.; Lubsandorzhiev, B. K.; Lubsandorzhiev, N. B.; Mirgazov, R. R.; Monkhoev, R. D.; Osipova, E. A.; Panasyuk, M. I.; Pankov, L. V.; Pakhorukov, A. L.; Popova, E. G.; Prosin, V. V.; Ptuskin, V. S.; Sveshnikova, L. G.; Semeney, Yu. A.; Silaev, A. A.; Silaev, A. A.; Skurikhin, A. V.; Chvalaev, O. A.; Spiering, C.; Yashin, I. V.
Bulletin of the Russian Academy of Sciences. Physics, 03/2015, Letnik: 79, Številka: 3Journal Article
The Tunka-133 Cherenkov light array for the detection of extensive air showers (EAS) acquires data over the five winters from 2009 to 2014. The direction of arrival, the shower core coordinates on the plane of observation, the primary energy, and the depth of the shower maximum are reconstructed for each EAS. A differential all-particle energy spectrum is obtained in the energy range of 6 × 10 15 –3 × 10 18 eV over 1540 h, along with the energy dependence of the average depth of the shower maximum in the range of 6 × 10 16 –3 × 10 18 eV. Based on this dependence, the variation in the average composition of the primary cosmic rays is estimated as a function of energy.
