Status of the GAMMA-400 Project

A. Vacchi; A.A. Leonov; A.A. Moiseev; A.I. Arkhangelskiy; A.M. Galper; Abdo; Abdo; Abdo; Adriani; Adriani; Adriani; Aharonian; Aharonian; Aharonian; Aleksić; Aptekar; Atkins; Atwood; Beischer; Chang; Dogiel; E. Mocchiutti; E. Vannuccini; E.P. Mazets; F. Longo; Galper; Galper; Galper; Ginzburg; Ginzburg; Guzik; Hartman; Hunter; I. Moskalenko; I.V. Arkhangelskaja; K.A. Boyarchuk; M. Boezio; M. Tavani; M.D. Kheymits; M.F. Runtso; M.I. Fradkin; M.O. Farber; Mitchell; N. Mori; N. Zampa; N.P. Topchiev; O. Adriani; P. Maestro; P. Marrocchesi; P. Papini; P. Picozza; P. Spillantini; P.Yu. Naumov; Panov; Picozza; Pittori; R. Sparvoli; R.L. Aptekar; S.I. Suchkov; Seo; Sreekumar; Tavani; Thompson; Torii; V. Bonvicini; V.A. Kachanov; V.A. Kaplin; V.G. Rodin; V.G. Zverev; Weekes; Yu.T. Yurkin; Yu.V. Gusakov

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Status of the GAMMA-400 Project

Abstract

The preliminary design of the new space gamma-ray telescope GAMMA-400 for the energy range 100 MeV - 3 TeV is presented. The angular resolution of the instrument, 1-2{\deg} at E{\gamma} ~100 MeV and ~0.01^{\circ} at E{\gamma} > 100 GeV, its energy resolution ~1% at E{\gamma} > 100 GeV, and the proton rejection factor ~10E6 are optimized to address a broad range of science topics, such as search for signatures of dark matter, studies of Galactic and extragalactic gamma-ray sources, Galactic and extragalactic diffuse emission, gamma-ray bursts, as well as high-precision measurements of spectra of cosmic-ray electrons, positrons, and nuclei.Comment: 6 pages, 1 figure, 1 table, submitted to Advances in Space Researc