Deep-Water Neutrino Telescope in Lake Baikal

被引:6
|
作者
Allakhverdyan, V. A. [1 ]
Avrorin, A. D. [2 ]
Avrorin, A. V. [2 ]
Aynutdinov, V. M. [1 ,2 ]
Bannasch, R. [3 ]
Bardacova, Z. [4 ]
Belolaptikov, I. A. [1 ]
Borina, I. V. [1 ]
Brudanin, V. B. [1 ]
Budnev, N. M. [5 ]
Dik, V. Y. [1 ]
Domogatsky, G. V. [2 ]
Doroshenko, A. A. [2 ]
Dvornicky, R. [1 ,4 ]
Dyachok, A. N. [5 ]
Dzhilkibaev, Zh. -A. M. [2 ]
Eckerova, E. [4 ]
Elzhov, T. V. [1 ]
Fajt, L. [6 ]
Fialkovsky, S. V. [7 ]
Gafarov, A. R. [5 ]
Golubkov, K. V. [2 ]
Gorshkov, N. S. [1 ]
Gress, T. I.
Katulin, M. S. [1 ]
Kebkal, K. G. [3 ]
Kebkal, O. G. [3 ]
Khramov, E. V. [1 ]
Kolbin, M. M. [1 ]
Konischev, K. V. [1 ,2 ]
Kopanski, K. A. [8 ]
Korobchenko, A. V. [1 ]
Koshechkin, A. P.
Kozhin, V. A. [9 ]
Kruglov, M. V. [1 ,2 ]
Kryukov, M. K.
Kulepov, V. F. [7 ]
Malecki, Pa. [8 ]
Malyshkin, Y. M. [1 ]
Milenin, M. B. [2 ]
Mirgazov, R. R. [5 ]
Naumov, D. V. [1 ]
Nazari, V. [1 ]
Noga, W. [8 ]
Petukhov, D. P. [2 ]
Pliskovsky, E. N. [1 ]
Rozanov, M. I. [10 ]
Rushay, V. D. [1 ]
Ryabov, E. V.
Safronov, G. B. [2 ,8 ]
机构
[1] Joint Inst Nucl Res, Dubna 141980, Russia
[2] Russian Acad Sci, Inst Nucl Res, Moscow 117312, Russia
[3] EvoL GmbH, D-13355 Berlin, Germany
[4] Comenius Univ, Bratislava 81499, Slovakia
[5] Irkutsk State Univ, Irkutsk 664003, Russia
[6] Czech Tech Univ, Prague 16000, Czech Republic
[7] Nizhnii Novgorod State Tech Univ, Nizhnii Novgorod 603950, Russia
[8] Polish Acad Sci IFJ PAN, Inst Nucl Phys, PL-60179 Krakow, Poland
[9] Moscow MV Lomonosov State Univ, Skobeltsyn Inst Nucl Phys, Moscow 119991, Russia
[10] St Petersburg State Marine Tech Univ, St Petersburg 190008, Russia
来源
PHYSICS OF ATOMIC NUCLEI | 2021年 / 84卷 / 09期
基金
俄罗斯基础研究基金会;
关键词
neutrino; muon; neutrino telescope; data acquisition system; deep-water engineering; Baikal;
D O I
10.1134/S1063778821090064
中图分类号
O57 [原子核物理学、高能物理学];
学科分类号
070202 ;
摘要
The Baikal-GVD deep-water neutrino telescope of the cubic kilometer scale, focused on research in the field of astrophysics and particle physics, is being built in Lake Baikal. As of 2021, the effective volume of the detector reaches 0.4 km(3) for cascades generated by high-energy astrophysical neutrinos. The paper describes the design and basic characteristics of the telescope data acquisition system, discusses some aspects of deep-water engineering related to the deployment of the detector, and presents selected results obtained with the partially complete detector.
引用
收藏
页码:1600 / 1609
页数:10
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