The Future Space-Based GAMMA-400 Gamma-Ray Telescope for Studying Gamma and Cosmic Rays

N. P. Topchiev; A. M. Galper; I. V. Arkhangelskaja; A. I. Arkhangelskiy; A. V. Bakaldin; Yu. V. Gusakov; O. D. Dalkarov; A. E. Egorov; V. G. Zverev; A. A. Leonov; P. Yu. Naumov; N. Yu. Pappe; M. F. Runtso; Yu. I. Stozhkov; S. I. Suchkov; M. D. Kheimitz; I. V. Chernysheva; Yu. T. Yurkin

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The Future Space-Based GAMMA-400 Gamma-Ray Telescope for Studying Gamma and Cosmic Rays

机译：用于研究伽玛和宇宙射线的未来空间的伽玛-400伽马射线望远镜

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The future space-based γ-ray telescope GAMMA-400 will be installed on the Navigator platform of the Russian astrophysical observatory. A highly elliptical orbit will allow prolonged (~100 days) continuous observations of many regions of the celestial sphere for 7–10 years. GAMMA-400 will measure fluxes of γ?ray emission in the energy range of ~20 MeV to several TeV and electrons + positrons to ~20 TeV. The γ-ray telescope will have excellent separation of γ-ray emissions against the background of cosmic rays and electrons + positrons from protons, along with unprecedented angular (~0.01° at E ~(γ)= 100 GeV) and energy (~1% at E ~(γ)?=?100 GeV) resolutions 5–10 times better than for the Fermi-LAT and ground-based γ-ray telescopes. GAMMA-400 observations will provide fundamentally new data on discrete sources and spectra of γ-ray emissions and electrons + positrons.

机译：将来的基于空间的γ射线望远镜Gamma-400将安装在俄罗斯天体物理天文台的导航平台上。高度椭圆轨道将延长（〜100天）连续观察天体球体的许多地区7-10年。 Gamma-400将测量γ射线发射的磁通量〜20 mev的电量范围为几个Tev和电子+正向〜20 tev。 γ射线望远镜将γ射线排放的优异分离在宇宙射线和电子+来自质子的电子+正的+正的正面，以及前所未有的角度（在e〜（γ）= 100 gev）和能量（〜1 e〜（γ）？=？100 gev）分辨率优于Fermi-Lat和基于地基γ射线望远镜的5-10倍。 Gamma-400观察将在γ射线排放和电子+正数的离散源和光谱上提供基本的新数据。

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《Bulletin of the Russian Academy of Sciences. Physics 》 |2019年第5期| 共3页
作者
N. P. Topchiev; A. M. Galper; I. V. Arkhangelskaja; A. I. Arkhangelskiy; A. V. Bakaldin; Yu. V. Gusakov; O. D. Dalkarov; A. E. Egorov; V. G. Zverev; A. A. Leonov; P. Yu. Naumov; N. Yu. Pappe; M. F. Runtso; Yu. I. Stozhkov; S. I. Suchkov; M. D. Kheimitz; I. V. Chernysheva; Yu. T. Yurkin;
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作者单位

Lebedev Physical Institute Russian Academy of Sciences;

Lebedev Physical Institute Russian Academy of Sciences;

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute);

Lebedev Physical Institute Russian Academy of Sciences;

Lebedev Physical Institute Russian Academy of Sciences;

Lebedev Physical Institute Russian Academy of Sciences;

Lebedev Physical Institute Russian Academy of Sciences;

Lebedev Physical Institute Russian Academy of Sciences;

Lebedev Physical Institute Russian Academy of Sciences;

Lebedev Physical Institute Russian Academy of Sciences;

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute);

Lebedev Physical Institute Russian Academy of Sciences;

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute);

Lebedev Physical Institute Russian Academy of Sciences;

Lebedev Physical Institute Russian Academy of Sciences;

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute);

Lebedev Physical Institute Russian Academy of Sciences;

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute);

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正文语种 eng
中图分类物理学 ;
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专利

1. The Future Space-Based GAMMA-400 Gamma-Ray Telescope for Studying Gamma and Cosmic Rays [J] . N. P. Topchiev, A. M. Galper, I. V. Arkhangelskaja, Bulletin of the Russian Academy of Sciences. Physics . 2019 ,第5期

机译：用于研究伽玛和宇宙射线的未来空间的伽玛-400伽马射线望远镜
2. High-energy gamma- and cosmic-ray observations with future space-based GAMMA-400 gamma-ray telescope [J] . N.P. Topchiev, A.M. Galper, I.V. Arkhangelskaja, EPJ Web of Conferences . 2019 ,第10期

机译：利用未来的天基GAMMA-400伽玛射线望远镜进行高能伽玛射线和宇宙射线观测
3. The Anticoincidence System of Space-Based Gamma-Ray Telescope GAMMA-400, Test Beam Studies of Anticoincidence Detector Prototype with SiPM Readout [J] . Arkhangelskiy A. I., Galper A. M., Arkhangelskaja I. V., Physics of atomic nuclei . 2020 ,第2期

机译：基于空间的伽马射线望远镜Gamma-400的抗煎体系，用SIPM读数测试抗煎探测器原型的测试光束研究
4. The GAMMA-400 gamma-ray telescope for precision gamma-ray emission investigations [C] . N P Topchiev, A M Galper, V Bonvicini, International Conference on Particle Physics and Astrophysics . 2016

机译：用于精密伽马射线排放调查的Gamma-400伽马射线望远镜
5. Development of neutron shields for gamma-ray telescopes in space and observation of galactic center sources by a balloon-borne gamma-ray telescope, GRATIS. [D] . Hong, JaeSub. 2002

机译：太空伽马射线望远镜的中子防护罩的开发以及用气球载伽马射线望远镜GRATIS观测银河中心源。
6. Gamma-ray bursts and their use as cosmic probes [O] . Patricia Schady 2017

机译：伽马射线爆发及其作为宇宙探测器的用途
7. High-energy gamma- and cosmic-ray observations with future space-based GAMMA-400 gamma-ray telescope [O] . N.P. Topchiev, A.M. Galper, I.V. Arkhangelskaja, 2019

机译：高能量伽马和宇宙射线观测，与未来的基于空间的伽马 - 400伽马射线望远镜
8. Design and Performance of the GAMMA-400 Gamma-Ray Telescope for Dark Matter Searches. [R] . Galper, A. M., Adriani, O., Kaplin, V. A., 2012

机译：用于暗物质搜索的Gamma-400伽马射线望远镜的设计和性能。

The Future Space-Based GAMMA-400 Gamma-Ray Telescope for Studying Gamma and Cosmic Rays

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