/ Instrumentation

Data acquisition system of the NT1000 Baikal neutrino telescope

Avrorin, A.V. (Moscow, INR) ; Avrorin, A.D. (Moscow, INR) ; Ainutdinov, V.M. (Moscow, INR) ; Bannasch, R. (BESSY, Berlin) ; Belolaptikov, I.A. (Dubna, JINR) ; Bogorodsky, D.Yu. (Irkutsk State U.) ; Brudanin, V.B. (Dubna, JINR) ; Budnev, N.M. (Irkutsk State U.) ; Gafarov, A.R. (Irkutsk State U.) ; Gaponenko, O.N. (Moscow, INR) ; Golubkov, K.V. (Moscow, INR) ; Gress, T.I. (Irkutsk State U.) ; Danilchenko, I.A. (Moscow, INR) ; Dzhilkibaev, Zh.-A.M. (Moscow, INR) ; Domogatskii, G.V. (Moscow, INR) ; Doroshenko, A.A. (Moscow, INR) ; Dyachok, A.N. (Irkutsk State U.) ; Zhukov, V.A. (BESSY, Berlin) ; Zagorodnikov, A.V. (Irkutsk State U.) ; Zurbanov, V.L. (Irkutsk State U.) ; Kebkal, K.G. (BESSY, Berlin) ; Kebkal, O.G. (BESSY, Berlin) ; Konishchev, K.V. (Dubna, JINR) ; Konstantinov, E.N. (Irkutsk State U.) ; Korobchenko, A.V. (Irkutsk State U.) ; Koshechkin, A.P. (Moscow, INR) ; Koshel, F.K. (Moscow, INR) ; Kozhin, V.A. (SINP, Moscow) ; Kulepov, V.F. (Nizhnii Novgorod State Tech. U.) ; Kuleshov, D.A. (Moscow, INR) ; Lyashuk, V.I. (Moscow, INR) ; Lolenko, A.I. (Irkutsk State U.) ; Milenin, M.B. (Nizhnii Novgorod State Tech. U.) ; Mirgazov, R.R. (Irkutsk State U.) ; Osipova, E.A. (SINP, Moscow) ; Panfilov, A.I. (Moscow, INR) ; Pankov, L.V. (Irkutsk State U.) ; Perevalov, A.A. (Irkutsk State U.) ; Pliskovskii, E.N. (Dubna, JINR) ; Poleshchuk, V.A. (Irkutsk State U.) ; Rozanov, M.I. (North West State Tech. U.) ; Rubtsov, V.Yu. (Irkutsk State U.) ; Ryabov, E.V. (Irkutsk State U.) ; Skurikhin, A.V. (SINP, Moscow) ; Smagina, A.A. (Dubna, JINR) ; Suvorova, O.V. (Moscow, INR) ; Tarashchanskii, B.A. (BESSY, Berlin) ; Fialkovskii, S.V. (Nizhnii Novgorod State Tech. U.) ; Hons, Z. (Dubna, JINR) ; Shaibonov, B.A. (Dubna, JINR) ; Sheifler, A.A. (Moscow, INR) ; Yakovlev, S.A. (BESSY, Berlin)

Published in: Instrum.Exp.Tech.
Year: 2014
Vol.: 57    Num./Issue: 3
Page No: 262-273
Pages: 12
Year: 2014

Abstract: In April of 2013, the first stage of the experimental cluster of the NT1000 deep-water neutrino telescope consisting of three strings with 24 optical modules in each was installed at Lake Baikal and switched on in the continuous exposure mode. The detection and data acquisition systems of this setup are described.

Total numbers of views: 3726
Numbers of unique views: 770
DOI: 10.1134/S002044121403004X
 Record created 2014-07-01, last modified 2014-07-01

Rate this document:

Rate this document:
(Not yet reviewed)