Calibrating the Measuring Channels of the Baikal-Gvd Neutrino Telescope,Instruments and Experimental Techniques

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Calibrating the Measuring Channels of the Baikal-Gvd Neutrino Telescope
Instruments and Experimental Techniques ( IF 0.4 ) Pub Date : 2020-07-28 , DOI: 10.1134/s0020441220040107
A. V. Avrorin , A. D. Avrorin , V. M. Ainutdinov , R. Bannasch , Z. Bardáĉová , I. A. Belolaptikov , V. B. Brudanin , N. M. Budnev , A. R. Gafarov , K. V. Golubkov , N. S. Gorshkov , T. I. Gres’ , R. Dvornický , G. V. Domogatsky , A. A. Doroshenko , J.-A. M. Dzhilkibaev , V. Ya. Dik , A. N. Diyachok , E. Eckerová , D. N. Zaborov , R. A. Ivanov , M. S. Katulin , K. G. Kebkal , O. G. Kebkal , V. A. Kozhin , M. M. Kolbin , K. V. Konishchev , A.V. Korobchenko , A. P. Koshechkin , M. V. Kruglov , M. K. Kryukov , V. F. Kulepov , M. V. Milenin , R. A. Mirgazov , V. Nazari , D. V. Naumov , A. I. Panfilov , D. P. Petukhov , E. N. Pliskovsky , M. I. Rozanov , V. D. Rushai , E. V. Ryabov , G. B. Safronov , F. Šimkovic , A. V. Skurikhin , A. G. Solov’ev , M. N. Sorokovikov , I. Štekl , O. V. Suvorova , E. O. Sushenok , V. A. Tabolenko , B. A. Tarashchansky , L. Fajt , S. V. Fialkovsky , E. V. Khramov , B. A. Shaibonov , M. D. Shelepov , S. A. Yakovlev

The Baikal-GVD project aims to create a deep-water neutrino telescope on a cubic kilometer scale in Lake Baikal. The telescope is at the rollout stage; its effective volume for detecting showers from high-energy neutrinos of an astrophysical nature has reached 0.25 km³. A set of experimental data on the telescope has been acquired since 2015 in the constant exposure mode simultaneously with the build-up of the detector. This article is devoted to the calibration of the measuring system of the neutrino telescope. It presents the equipment of the calibration system, describes the calibration procedure, and discusses the issues of the accuracy, reliability, and effectiveness of the developed calibration procedures.

中文翻译：

校准贝加尔湖-中微子望远镜的测量通道

贝加尔湖-GVD项目旨在在贝加尔湖建立立方公里规模的深水中微子望远镜。望远镜正处于推出阶段；其探测天文学性质的高能中微子的阵雨的有效体积已达到0.25 km ³。自2015年以来，在恒定曝光模式下，同时还安装了探测器，获得了望远镜上的一组实验数据。本文致力于中微子望远镜测量系统的校准。它介绍了校准系统的设备，描述了校准程序，并讨论了开发的校准程序的准确性，可靠性和有效性问题。

更新日期：2020-07-28

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