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Avrorin, A.V. (Moscow, INR) ; Avrorin, A.D. (Moscow, INR) ; Aynutdinov, V.M. (Moscow, INR) ; Bannasch, R. (Unlisted, DE) ; Belolaptikov, I.A. (Dubna, JINR) ; Bogorodsky, D.Yu. (Irkutsk State U.) ; Brudanin, V.B. (Dubna, JINR) ; Budnev, N.M. (Irkutsk State U.) ; Danilchenko, I.A. (Moscow, INR) ; Dzhilkibaev, Zh.-A.M. (Moscow, INR) ; Domogatsky, G.V. (Moscow, INR) ; Doroshenko, A.A. (Moscow, INR) ; Dyachok, A.N. (Irkutsk State U.) ; Fialkovsky, S.V. (Nizhnii Novgorod State Tech. U.) ; Gafarov, A.R. (Irkutsk State U.) ; Gaponenko, O.N. (Moscow, INR) ; Golubkov, K.V. (Moscow, INR) ; Gress, T.I. (Irkutsk State U.) ; Hons, Z. (Dubna, JINR) ; Kebkal, K.G. (Unlisted, DE) ; Kebkal, O.G. (Unlisted, DE) ; Konischev, K.V. (Dubna, JINR) ; Korobchenko, A.V. (Dubna, JINR) ; 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) ; Milenin, M.B. (Nizhnii Novgorod State Tech. U.) ; Mirgazov, R.R. (Irkutsk State U.) ; Osipova, E.A. (SINP, Moscow) ; Panfilov, A.I. (Moscow, INR) ; Pan'kov, L.V. (Irkutsk State U.) ; Pliskovsky, E.N. (Dubna, JINR) ; Rozanov, M.I. (North West State Tech. U.) ; Ryabov, E.V. (Irkutsk State U.) ; Shaibonov, B.A. (Dubna, JINR) ; Sheifler, A.A. (Moscow, INR) ; Skurikhin, A.V. (SINP, Moscow) ; Smagina, A.A. (Dubna, JINR) ; Suvorova, O.V. (Moscow, INR) ; Tabolenko, V.A. (Irkutsk State U.) ; Tarashchansky, B.A. (Irkutsk State U.) ; Yakovlev, S.A. (Unlisted, DE) ; Zagorodnikov, A.V. (Irkutsk State U.) ; Zhukov, V.A. (Moscow, INR) ; Zurbanov, V.L. (Irkutsk State U.)
Published in: Phys.Part.Nucl.
Year: 2016
Vol.: 47
Num./Issue: 6
Page No: 933-937
Pages: 5
Year: 2016-11-06 published
Abstract: The objective of the Baikal-GVD project is the construction of a km$^{3}$-scale neutrino telescope in Lake Baikal. The Gigaton Volume Detector consists of a large three-dimensional array of photo-multiplier tubes. The first GVD-cluster has been deployed and commissioned in April 2015. The data acquisition system (DAQ) of the detector takes care of the digitization of the photo-multiplier tube signals, data transmission, filtering and storage. The design and the implementation of the data acquisition system are described.
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