TAIGA experiment: present status and perspectives

N. Budnev; I. Astapov; P. Bezyazeekov; V. Boreyko; A. Borodin; M. Brückner; A. Chiavassa; A. Gafarov; V. Grebenyuk; O. Gress; T. Gress; A. Grinyuk; O. Grishin; A. Dyachok; O. Fedorov; A. Haungs; D. Horns; T. Huege; A. Ivanova; N. Kalmykov; Y. Kazarina; V. Kindin; S. Kiryuhin; R. Kokoulin; K. Kompaniets; D. Kostunin; E. Korosteleva; V. Kozhin; E. Kravchenko; M. Kunnas; L. Kuzmichev; Yu. Lemeshev; V. Lenok; B. Lubsandorzhiev; N. Lubsandorzhiev; R. Mirgazov; R. Mirzoyan; R. Monkhoev; R. Nachtigall; E. Osipova; A. Pakhorukov; M. Panasyuk; L. Pankov; V. Poleschuk; M. Popesku; E. Popova; A. Porelli; E. Postnikov; V. Prosin; V. Ptuskin; A. Petrukhin; A. Pushnin; E. Rjabov; G. Rubtsov; Y. Sagan; V. Samoliga; Yu. Semeney; A. Sidorenkov; F. Schröder; A. Silaev; A. Silaev (junior); A. Skurikhin; M. Slunecka; A. Sokolov; C. Spiering; L. Sveshnikova; V. Tabolenko; B. Tarashansky; A. Tkachenko; L. Tkachev; M. Tluczykont; R. Wischnewski; I. Yashin; A. Zagorodnikov; D. Zhurov; V. Zurbanov

doi:10.1088/1748-0221/12/08/C08018

Journal of Instrumentation

TAIGA experiment: present status and perspectives

N. Budnev¹, I. Astapov², P. Bezyazeekov¹, V. Boreyko³, A. Borodin³, M. Brückner⁴, A. Chiavassa⁵, A. Gafarov¹, V. Grebenyuk³, O. Gress¹, T. Gress¹, A. Grinyuk³, O. Grishin¹, A. Dyachok¹, O. Fedorov¹, A. Haungs¹⁵, D. Horns⁶, T. Huege¹⁵, A. Ivanova¹, N. Kalmykov⁷, Y. Kazarina¹, V. Kindin², S. Kiryuhin¹, R. Kokoulin², K. Kompaniets², D. Kostunin¹⁵, E. Korosteleva⁷, V. Kozhin⁷, E. Kravchenko^8,9, M. Kunnas⁶, L. Kuzmichev⁷, Yu. Lemeshev¹, V. Lenok¹, B. Lubsandorzhiev¹⁰, N. Lubsandorzhiev⁷, R. Mirgazov¹, R. Mirzoyan^1,11, R. Monkhoev¹, R. Nachtigall⁶, E. Osipova⁷, A. Pakhorukov¹, M. Panasyuk⁷, L. Pankov¹, V. Poleschuk¹, M. Popesku¹², E. Popova⁷, A. Porelli¹³, E. Postnikov⁷, V. Prosin⁷, V. Ptuskin¹⁴, A. Petrukhin², A. Pushnin¹, E. Rjabov¹, G. Rubtsov¹⁰, Y. Sagan³, V. Samoliga¹, Yu. Semeney¹, A. Sidorenkov¹⁰, F. Schröder¹⁵, A. Silaev⁷, A. Silaev (junior)⁷, A. Skurikhin⁷, M. Slunecka¹⁰, A. Sokolov^8,9, C. Spiering¹³, L. Sveshnikova⁷, V. Tabolenko¹, B. Tarashansky¹, A. Tkachenko³, L. Tkachev³, M. Tluczykont⁶, R. Wischnewski¹³, I. Yashin², A. Zagorodnikov¹, D. Zhurov¹ and V. Zurbanov¹

Published 16 August 2017 • © 2017 IOP Publishing Ltd and Sissa Medialab
Journal of Instrumentation, Volume 12, August 2017 International Conference on Instrumentation for Colliding Beam Physics (INSTR17) Citation N. Budnev et al 2017 JINST 12 C08018 DOI 10.1088/1748-0221/12/08/C08018

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¹ Institute of Applied Physics, Irkutsk State University, Gagarin blvd, Irkutsk, Russia

² Moscow Research Nuclear University MEPhI, Kashirskoe shosse, Moscow, Russia

³ Joint Institute for Nuclear Research, Joliot-Curie, Dubna, Russia

⁴ Institute for Computer Science, Humboldt-University, Rudower Chaussee, Berlin, Germany

⁵ Dipartimento di Fisica Generale, Università di Torino and INFN, Via Pietro Giuria, Torino, Italy

⁶ Institut fur Experimentalphysik, University of Hamburg, Luruper Chaussee, Hamburg, Germany

⁷ Skobeltsyn Institute of Nuclear Physics MSU, Leninskie gory, Moscow, Russia

⁸ Budker Institute of Nuclear Physics, BINP, Akademika Lavrentieva prospect, Novosibirsk, Russia

⁹ Novosibirsk State University, NSU, Pirogova, Novosibirsk, Russia

¹⁰ Institute for Nuclear Research, RAS, 60-letiya Oktyabrya prospekt, Moscow, Russia

¹¹ Max-Planck-Institute for Physics, Föhringer Ring, Münich, Germany

¹² Institute of Space Science, Megurele, Bucharest, Romania

¹³ DESY, Platanenallee, Zeuthen, Germany

¹⁴ IZMIRAN, RAS, Tekstilshchikov, Troitsk, Russia

¹⁵ Institut für Kernphysik, Karlsruhe Institute of Technology (KIT), Hermann-von-Helmholtz-Platz, Eggenstein-Leopoldshafen, Germany

Dates

Received 12 June 2017
Accepted 13 July 2017
Published 16 August 2017

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Abstract

The TAIGA observatory addresses ground-based gamma-ray astronomy at energies from a few TeV to several PeV, as well as cosmic ray physics from 100 TeV to several EeV . TAIGA will be located in the Tunka valley, ∼ 50 km West from Lake Baikal. The different detectors of the TAIGA will be grouped in 6 arrays to measure Cherenkov and radio emission as well as electron and muon components of atmospheric showers. The combination of the wide angle Cherenkov detectors of the TAIGA-HiSCORE array and the 4-m Imaging Atmospheric Cherenkov Telescopes of the TAIGA-IACT array with their FoV of 10×10 degrees and underground muon detectors offers a very cost effective way to construct a 5 km² array for gamma-ray astronomy.

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