The e-ASTROGAM mission (exploring the extreme Universe with gamma rays   in the MeV-GeV range)

Alessandro De Angelis; Vincent Tatischeff; Marco Tavani; Uwe Oberlack,; Isabelle A. Grenier; Lorraine Hanlon; Roland Walter; Andrea Argan; Peter von; Ballmoos; Andrea Bulgarelli; Immacolata Donnarumma; Margarita Hernanz; Irfan; Kuvvetli; Mark Pearce; Andrzej Zdziarski; Alessio Aboudan; Marco Ajello,; Giovanni Ambrosi; Denis Bernard; Elisa Bernardini; Valter Bonvicini; Andrea; Brogna; Marica Branchesi; Carl Budtz-Jorgensen; Andrei Bykov; Riccardo; Campana; Martina Cardillo; Paolo Coppi; Domitilla De Martino; Roland Diehl,; Michele Doro; Valentina Fioretti; Stefan Funk; Gabriele Ghisellini; J. Eric; Grove; Clarisse Hamadache; Dieter H. Hartmann; Masaaki Hayashida; Jordi; Isern; Gottfried Kanbach; Jurgen Kiener; Jurgen Knodlseder; Claudio Labanti,; Philippe Laurent; Olivier Limousin; Francesco Longo; Karl Mannheim; Martino; Marisaldi; Manel Martinez; Mario N. Mazziotta; Julie McEnery; Sandro; Mereghetti; Gabriele Minervini; Alexander Moiseev; Aldo Morselli; Kazuhiro; Nakazawa; Piotr Orleanski; Josep M. Paredes; Barbara Patricelli; Jean Peyre,; Giovanni Piano; Martin Pohl; Harald Ramarijaona; Riccardo Rando; Ignasi; Reichardt; Marco Roncadelli; Rui Curado da Silva; Fabrizio Tavecchio; David; J. Thompson; Roberto Turolla; Alexei Ulyanov; Andrea Vacchi; Xin Wu; Andreas; Zoglauer (on behalf of the e-ASTROGAM Collaboration)

arXiv:1611.02232·astro-ph.HE·October 6, 2017·98 cites

The e-ASTROGAM mission (exploring the extreme Universe with gamma rays in the MeV-GeV range)

Alessandro De Angelis, Vincent Tatischeff, Marco Tavani, Uwe Oberlack,, Isabelle A. Grenier, Lorraine Hanlon, Roland Walter, Andrea Argan, Peter von, Ballmoos, Andrea Bulgarelli, Immacolata Donnarumma, Margarita Hernanz, Irfan, Kuvvetli, Mark Pearce, Andrzej Zdziarski

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TL;DR

e-ASTROGAM is a pioneering gamma-ray observatory designed to explore the non-thermal Universe in the MeV-GeV range, offering unprecedented sensitivity and resolution to study cosmic sources and fundamental astrophysical processes.

Contribution

It introduces an advanced detector technology and a mission concept that significantly improves sensitivity and resolution in the MeV-GeV gamma-ray domain, enabling new astrophysical insights.

Findings

01

Enhanced sensitivity in the MeV range by 10-100 times

02

Ability to study relativistic outflows and cosmic isotopes

03

Complementary data for multi-messenger astronomy

Abstract

e-ASTROGAM (`enhanced ASTROGAM') is a breakthrough Observatory mission dedicated to the study of the non-thermal Universe in the photon energy range from 0.3 MeV to 3 GeV. The mission is based on an advanced space-proven detector technology, with unprecedented sensitivity, angular and energy resolution, combined with polarimetric capability. In the largely unexplored MeV-GeV domain, e-ASTROGAM will open a new window on the non-thermal Universe, making pioneering observations of the most powerful Galactic and extragalactic sources, elucidating the nature of their relativistic outflows and their effects on Galactic ecosystems. With a line sensitivity in the MeV energy range one to two orders of magnitude better than previous generation instruments, will determine the origin of key isotopes fundamental for the understanding of supernova explosion and the chemical evolution of our Galaxy.…

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Taxonomy

TopicsAstrophysics and Cosmic Phenomena · Gamma-ray bursts and supernovae · Dark Matter and Cosmic Phenomena