Acoustic search for high-energy neutrinos in Lake Baikal: status and perspectives
/ Authors
V. Aynutdinov, A. Avrorin, V. Balkanov, I. Belolaptikov, D. Bogorodsky, N. Budnev, I. Danilchenk, G. Domogatsky, A. Doroshenko, A. Dyachok
and 41 more authors
Z. Dzhilkibaev, S. Fialkovskyk, O. Gaponenko, K. Golubkov, O. Gress, T. Gress, O. Grishin, A. Klabukov, A. Klimov, A. Kochanov, K. Konischev, A. Koshechkin, V. Kulepovk, D. Kuleshov, L. Kuzmichev, V. Lyashuk, E. Middell, S. Mikheyev, M. Milenink, R. Mirgazov, É. Osipova, G. Pan’kov, L. Pan’kov, A. Panfilov, D. Petukhov, E. Pliskovsky, P. Pokhil, V. Poleschuk, E. Popova, V. Prosin, M. Rozanov, V. Rubtzov, A. Sheifler, O. Suvorova, A. Shirokov, B. Shoibonov, C. Spiering, B. Tarashansky, R. Wischnewski, I. Yashin, V. Zhukov
/ Abstract
We report theoretical and experimental results of on-going feasibility studies to detect cosmic neutrinos acoustically in Lake Baikal. In order to examine ambient noise conditions and to develop respective pulse detection techniques a prototype device was created. The device is operating at a depth of 150 m at the site of the Baikal Neutrino Telescope and is capable to detect and classify acoustic signals with different shapes, as well as signals from neutrino-induced showers.
Journal: arXiv: High Energy Astrophysical Phenomena