The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s

V. Tatischeff; A. De Angelis; M. Tavani; I. Grenier; U. Oberlack; L. Hanlon; R. Walter; A. Argan; P. Von Ballmoos; A. Bulgarelli; I. Donnarumma; M. Hernanz; I. Kuvvetli; M. Mallamaci; M. Pearce; A. Zdziarski; A. Aboudan; M. Ajello; G. Ambrosi; D. Bernard; E. Bernardini; V. Bonvicini; A. Brogna; M. Branchesi; C. Budtz-Jorgensen; A. Bykov; R. Campana; M. Cardillo; S. Ciprini; P. Coppi; P. Cumani; R. M. Curado Da Silva; D. De Martino; R. DIehl; M. Doro; V. Fioretti; S. Funk; G. Ghisellini; J. E. Grove; F. Giordano; C. Hamadache; D. H. Hartmann; M. Hayashida; J. Isern; G. Kanbach; J. Kiener; J. Knödlseder; C. Labanti; P. Laurent; M. Leising; O. Limousin; F. Longo; K. Mannheim; M. Marisaldi; M. Martinez; N. M. Mazziotta; J. E. McEnery; S. Mereghetti; G. Minervini; A. Moiseev; A. Morselli; K. Nakazawa; P. Orleanski; J. M. Paredes; B. Patricelli; J. Peyré; G. Piano; M. Pohl; R. Rando; M. Roncadelli; F. Tavecchio; D. J. Thompson; R. Turolla; A. Ulyanov; A. Vacchi; X. Wu; A. Zoglauer

doi:10.1117/12.2315151

The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s

V. Tatischeff
, A. De Angelis
, M. Tavani
, I. Grenier
, U. Oberlack
, L. Hanlon
, R. Walter
, A. Argan
, P. Von Ballmoos
, A. Bulgarelli
, I. Donnarumma
, M. Hernanz
, I. Kuvvetli
, M. Mallamaci
, M. Pearce
, A. Zdziarski
, A. Aboudan
, M. Ajello
, G. Ambrosi
, D. Bernard

E. Bernardini, V. Bonvicini, A. Brogna, M. Branchesi, C. Budtz-Jorgensen, A. Bykov, R. Campana, M. Cardillo, S. Ciprini, P. Coppi, P. Cumani, R. M. Curado Da Silva, D. De Martino, R. DIehl, M. Doro, V. Fioretti, S. Funk, G. Ghisellini, J. E. Grove, F. Giordano, C. Hamadache, D. H. Hartmann, M. Hayashida, J. Isern, G. Kanbach, J. Kiener, J. Knödlseder, C. Labanti, P. Laurent, M. Leising, O. Limousin, F. Longo, K. Mannheim, M. Marisaldi, M. Martinez, N. M. Mazziotta, J. E. McEnery, S. Mereghetti, G. Minervini, A. Moiseev, A. Morselli, K. Nakazawa, P. Orleanski, J. M. Paredes, B. Patricelli, J. Peyré, G. Piano, M. Pohl, R. Rando, M. Roncadelli, F. Tavecchio, D. J. Thompson, R. Turolla, A. Ulyanov, A. Vacchi, X. Wu, A. Zoglauer

CNRS
INFN
INAF Osservatorio Astronomico di Padova
and Physics University of Udine
Instituto Superior Técnico
Istituto di Astrofisica e Planetologia Spaziali (IAPS)
University of Rome “Tor Vergata”
Gran Sasso Science Institute
Université Paris-Diderot
Johannes Gutenberg University
University College Dublin
University of Geneva
IRAP/CNRS
INAF Istituto di Astrofisica Spaziale e Fisica Cosmica, Bologna
Campus UAB
Technical University of Denmark
KTH Royal Institute of Technology
Nicolaus Copernicus Astronomical Center of the Polish Academy of Sciences
University of Padova
Clemson University
INFN Sezione di Perugia
c/o DESY
INFN Sezione di Trieste
Ioffe Institute
Yale University
University of Coimbra
Osservatorio Astronomico di Capodimonte
Max Planck Institut für Extraterrestrische Physik
Excellence Cluster Universe
Friedrich-Alexander University (FAU) Erlangen-Nürnberg and Universitätsklinikum Erlangen
INAF
Università degli studi di Bari Aldo Moro
INFN Sezione di Bari
Naval Research Laboratory
University of Tokyo
Laboratoire de Probabilités et Modèles Aléatoires
CEA/UVSQ/CNRS
University of Trieste
University of Würzburg
University of Bergen
University of São Paulo
NASA Goddard Space Flight Center
INAF Istituto di Astrofisica Spaziale e Fisica Cosmica, Milan
University of Maryland, College Park
INFN Roma Tor Vergata
Polish Academy of Sciences
University of Barcelona
Scuola Normale Superiore di Pisa
Istituto Nazionale di Fisica Nucleare, Sezione di Pisa
University of Potsdam
INFN Sezione di Pavia
Laboratori Nazionali del Gran Sasso
University of California, Space Sciences Laboratory

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Contribution à une conférence › Revue par des pairs

Résumé

e-ASTROGAM is a concept for a breakthrough observatory space mission carrying a γ-ray telescope dedicated to the study of the non-thermal Universe in the photon energy range from 0.15 MeV to 3 GeV. The lower energy limit can be pushed down to energies as low as 30 keV for gamma-ray burst detection with the calorimeter. The mission is based on an advanced space-proven detector technology, with unprecedented sensitivity, angular and energy resolution, combined with remarkable polarimetric capability. Thanks to its performance in the MeV-GeV domain, substantially improving its predecessors, 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 the surroundings. With a line sensitivity in the MeV energy range one to two orders of magnitude better than previous and current generation instruments, e-ASTROGAM will determine the origin of key isotopes fundamental for the understanding of supernova explosion and the chemical evolution of our Galaxy. The mission will be a major player of the multiwavelength, multimessenger time-domain astronomy of the 2030s, and provide unique data of significant interest to a broad astronomical community, complementary to powerful observatories such as LISA, LIGO, Virgo, KAGRA, the Einstein Telescope and the Cosmic Explorer, IceCube-Gen2 and KM3NeT, SKA, ALMA, JWST, E-ELT, LSST, Athena, and the Cherenkov Telescope Array.

langue originale	Anglais
titre	Space Telescopes and Instrumentation 2018
Sous-titre	Ultraviolet to Gamma Ray
rédacteurs en chef	Shouleh Nikzad, Jan-Willem A. Den Herder, Kazuhiro Nakazawa
Editeur	SPIE
ISBN (imprimé)	9781510619517
Les DOIs	https://doi.org/10.1117/12.2315151
état	Publié - 1 janv. 2018
Evénement	Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray - Austin, États-Unis Durée: 10 juin 2018 → 15 juin 2018

Série de publications

Nom	Proceedings of SPIE - The International Society for Optical Engineering
Volume	10699
ISSN (imprimé)	0277-786X
ISSN (Electronique)	1996-756X

Une conférence

Une conférence	Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray
Pays/Territoire	États-Unis
La ville	Austin
période	10/06/18 → 15/06/18

Accès au document

10.1117/12.2315151

Autres fichiers et liens

Lien vers la publication dans Scopus

Contient cette citation

Tatischeff, V., De Angelis, A., Tavani, M., Grenier, I., Oberlack, U., Hanlon, L., Walter, R., Argan, A., Von Ballmoos, P., Bulgarelli, A., Donnarumma, I., Hernanz, M., Kuvvetli, I., Mallamaci, M., Pearce, M., Zdziarski, A., Aboudan, A., Ajello, M., Ambrosi, G., ... Zoglauer, A. (2018). The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s. Dans S. Nikzad, J.-W. A. Den Herder, & K. Nakazawa (eds.), Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray Article 106992J (Proceedings of SPIE - The International Society for Optical Engineering; Vol 10699). SPIE. https://doi.org/10.1117/12.2315151

Tatischeff, V. ; De Angelis, A. ; Tavani, M. et al. / The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s. Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray. Editeur / Shouleh Nikzad ; Jan-Willem A. Den Herder ; Kazuhiro Nakazawa. SPIE, 2018. (Proceedings of SPIE - The International Society for Optical Engineering).

@inproceedings{cf57b4830a0f4aa7b75a8718176f86cd,

title = "The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s",

abstract = "e-ASTROGAM is a concept for a breakthrough observatory space mission carrying a γ-ray telescope dedicated to the study of the non-thermal Universe in the photon energy range from 0.15 MeV to 3 GeV. The lower energy limit can be pushed down to energies as low as 30 keV for gamma-ray burst detection with the calorimeter. The mission is based on an advanced space-proven detector technology, with unprecedented sensitivity, angular and energy resolution, combined with remarkable polarimetric capability. Thanks to its performance in the MeV-GeV domain, substantially improving its predecessors, 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 the surroundings. With a line sensitivity in the MeV energy range one to two orders of magnitude better than previous and current generation instruments, e-ASTROGAM will determine the origin of key isotopes fundamental for the understanding of supernova explosion and the chemical evolution of our Galaxy. The mission will be a major player of the multiwavelength, multimessenger time-domain astronomy of the 2030s, and provide unique data of significant interest to a broad astronomical community, complementary to powerful observatories such as LISA, LIGO, Virgo, KAGRA, the Einstein Telescope and the Cosmic Explorer, IceCube-Gen2 and KM3NeT, SKA, ALMA, JWST, E-ELT, LSST, Athena, and the Cherenkov Telescope Array.",

keywords = "Compton and pair creation telescope, Gamma-ray astronomy, gamma-ray polarization, high-energy astrophysical phenomena, space mission, time-domain astronomy",

author = "V. Tatischeff and \{De Angelis\}, A. and M. Tavani and I. Grenier and U. Oberlack and L. Hanlon and R. Walter and A. Argan and \{Von Ballmoos\}, P. and A. Bulgarelli and I. Donnarumma and M. Hernanz and I. Kuvvetli and M. Mallamaci and M. Pearce and A. Zdziarski and A. Aboudan and M. Ajello and G. Ambrosi and D. Bernard and E. Bernardini and V. Bonvicini and A. Brogna and M. Branchesi and C. Budtz-Jorgensen and A. Bykov and R. Campana and M. Cardillo and S. Ciprini and P. Coppi and P. Cumani and \{Curado Da Silva\}, \{R. M.\} and \{De Martino\}, D. and R. DIehl and M. Doro and V. Fioretti and S. Funk and G. Ghisellini and Grove, \{J. E.\} and F. Giordano and C. Hamadache and Hartmann, \{D. H.\} and M. Hayashida and J. Isern and G. Kanbach and J. Kiener and J. Kn{\"o}dlseder and C. Labanti and P. Laurent and M. Leising and O. Limousin and F. Longo and K. Mannheim and M. Marisaldi and M. Martinez and Mazziotta, \{N. M.\} and McEnery, \{J. E.\} and S. Mereghetti and G. Minervini and A. Moiseev and A. Morselli and K. Nakazawa and P. Orleanski and Paredes, \{J. M.\} and B. Patricelli and J. Peyr{\'e} and G. Piano and M. Pohl and R. Rando and M. Roncadelli and F. Tavecchio and Thompson, \{D. J.\} and R. Turolla and A. Ulyanov and A. Vacchi and X. Wu and A. Zoglauer",

note = "Publisher Copyright: {\textcopyright} 2018 SPIE.; Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray ; Conference date: 10-06-2018 Through 15-06-2018",

year = "2018",

month = jan,

day = "1",

doi = "10.1117/12.2315151",

language = "English",

isbn = "9781510619517",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

publisher = "SPIE",

editor = "Shouleh Nikzad and \{Den Herder\}, \{Jan-Willem A.\} and Kazuhiro Nakazawa",

booktitle = "Space Telescopes and Instrumentation 2018",

}

Tatischeff, V, De Angelis, A, Tavani, M, Grenier, I, Oberlack, U, Hanlon, L, Walter, R, Argan, A, Von Ballmoos, P, Bulgarelli, A, Donnarumma, I, Hernanz, M, Kuvvetli, I, Mallamaci, M, Pearce, M, Zdziarski, A, Aboudan, A, Ajello, M, Ambrosi, G, Bernard, D, Bernardini, E, Bonvicini, V, Brogna, A, Branchesi, M, Budtz-Jorgensen, C, Bykov, A, Campana, R, Cardillo, M, Ciprini, S, Coppi, P, Cumani, P, Curado Da Silva, RM, De Martino, D, DIehl, R, Doro, M, Fioretti, V, Funk, S, Ghisellini, G, Grove, JE, Giordano, F, Hamadache, C, Hartmann, DH, Hayashida, M, Isern, J, Kanbach, G, Kiener, J, Knödlseder, J, Labanti, C, Laurent, P, Leising, M, Limousin, O, Longo, F, Mannheim, K, Marisaldi, M, Martinez, M, Mazziotta, NM, McEnery, JE, Mereghetti, S, Minervini, G, Moiseev, A, Morselli, A, Nakazawa, K, Orleanski, P, Paredes, JM, Patricelli, B, Peyré, J, Piano, G, Pohl, M, Rando, R, Roncadelli, M, Tavecchio, F, Thompson, DJ, Turolla, R, Ulyanov, A, Vacchi, A, Wu, X & Zoglauer, A 2018, The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s. Dans S Nikzad, J-WA Den Herder & K Nakazawa (eds), Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray., 106992J, Proceedings of SPIE - The International Society for Optical Engineering, VOL. 10699, SPIE, Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray, Austin, États-Unis, 10/06/18. https://doi.org/10.1117/12.2315151

The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s. / Tatischeff, V.; De Angelis, A.; Tavani, M. et al.
Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray. Ed. / Shouleh Nikzad; Jan-Willem A. Den Herder; Kazuhiro Nakazawa. SPIE, 2018. 106992J (Proceedings of SPIE - The International Society for Optical Engineering; Vol 10699).

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Contribution à une conférence › Revue par des pairs

TY - GEN

T1 - The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s

AU - Tatischeff, V.

AU - De Angelis, A.

AU - Tavani, M.

AU - Grenier, I.

AU - Oberlack, U.

AU - Hanlon, L.

AU - Walter, R.

AU - Argan, A.

AU - Von Ballmoos, P.

AU - Bulgarelli, A.

AU - Donnarumma, I.

AU - Hernanz, M.

AU - Kuvvetli, I.

AU - Mallamaci, M.

AU - Pearce, M.

AU - Zdziarski, A.

AU - Aboudan, A.

AU - Ajello, M.

AU - Ambrosi, G.

AU - Bernard, D.

AU - Bernardini, E.

AU - Bonvicini, V.

AU - Brogna, A.

AU - Branchesi, M.

AU - Budtz-Jorgensen, C.

AU - Bykov, A.

AU - Campana, R.

AU - Cardillo, M.

AU - Ciprini, S.

AU - Coppi, P.

AU - Cumani, P.

AU - Curado Da Silva, R. M.

AU - De Martino, D.

AU - DIehl, R.

AU - Doro, M.

AU - Fioretti, V.

AU - Funk, S.

AU - Ghisellini, G.

AU - Grove, J. E.

AU - Giordano, F.

AU - Hamadache, C.

AU - Hartmann, D. H.

AU - Hayashida, M.

AU - Isern, J.

AU - Kanbach, G.

AU - Kiener, J.

AU - Knödlseder, J.

AU - Labanti, C.

AU - Laurent, P.

AU - Leising, M.

AU - Limousin, O.

AU - Longo, F.

AU - Mannheim, K.

AU - Marisaldi, M.

AU - Martinez, M.

AU - Mazziotta, N. M.

AU - McEnery, J. E.

AU - Mereghetti, S.

AU - Minervini, G.

AU - Moiseev, A.

AU - Morselli, A.

AU - Nakazawa, K.

AU - Orleanski, P.

AU - Paredes, J. M.

AU - Patricelli, B.

AU - Peyré, J.

AU - Piano, G.

AU - Pohl, M.

AU - Rando, R.

AU - Roncadelli, M.

AU - Tavecchio, F.

AU - Thompson, D. J.

AU - Turolla, R.

AU - Ulyanov, A.

AU - Vacchi, A.

AU - Wu, X.

AU - Zoglauer, A.

PY - 2018/1/1

Y1 - 2018/1/1

N2 - e-ASTROGAM is a concept for a breakthrough observatory space mission carrying a γ-ray telescope dedicated to the study of the non-thermal Universe in the photon energy range from 0.15 MeV to 3 GeV. The lower energy limit can be pushed down to energies as low as 30 keV for gamma-ray burst detection with the calorimeter. The mission is based on an advanced space-proven detector technology, with unprecedented sensitivity, angular and energy resolution, combined with remarkable polarimetric capability. Thanks to its performance in the MeV-GeV domain, substantially improving its predecessors, 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 the surroundings. With a line sensitivity in the MeV energy range one to two orders of magnitude better than previous and current generation instruments, e-ASTROGAM will determine the origin of key isotopes fundamental for the understanding of supernova explosion and the chemical evolution of our Galaxy. The mission will be a major player of the multiwavelength, multimessenger time-domain astronomy of the 2030s, and provide unique data of significant interest to a broad astronomical community, complementary to powerful observatories such as LISA, LIGO, Virgo, KAGRA, the Einstein Telescope and the Cosmic Explorer, IceCube-Gen2 and KM3NeT, SKA, ALMA, JWST, E-ELT, LSST, Athena, and the Cherenkov Telescope Array.

AB - e-ASTROGAM is a concept for a breakthrough observatory space mission carrying a γ-ray telescope dedicated to the study of the non-thermal Universe in the photon energy range from 0.15 MeV to 3 GeV. The lower energy limit can be pushed down to energies as low as 30 keV for gamma-ray burst detection with the calorimeter. The mission is based on an advanced space-proven detector technology, with unprecedented sensitivity, angular and energy resolution, combined with remarkable polarimetric capability. Thanks to its performance in the MeV-GeV domain, substantially improving its predecessors, 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 the surroundings. With a line sensitivity in the MeV energy range one to two orders of magnitude better than previous and current generation instruments, e-ASTROGAM will determine the origin of key isotopes fundamental for the understanding of supernova explosion and the chemical evolution of our Galaxy. The mission will be a major player of the multiwavelength, multimessenger time-domain astronomy of the 2030s, and provide unique data of significant interest to a broad astronomical community, complementary to powerful observatories such as LISA, LIGO, Virgo, KAGRA, the Einstein Telescope and the Cosmic Explorer, IceCube-Gen2 and KM3NeT, SKA, ALMA, JWST, E-ELT, LSST, Athena, and the Cherenkov Telescope Array.

KW - Compton and pair creation telescope

KW - Gamma-ray astronomy

KW - gamma-ray polarization

KW - high-energy astrophysical phenomena

KW - space mission

KW - time-domain astronomy

UR - https://www.scopus.com/pages/publications/85051864732

U2 - 10.1117/12.2315151

DO - 10.1117/12.2315151

M3 - Conference contribution

AN - SCOPUS:85051864732

SN - 9781510619517

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Space Telescopes and Instrumentation 2018

A2 - Nikzad, Shouleh

A2 - Den Herder, Jan-Willem A.

A2 - Nakazawa, Kazuhiro

PB - SPIE

T2 - Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray

Y2 - 10 June 2018 through 15 June 2018

ER -

Tatischeff V, De Angelis A, Tavani M, Grenier I, Oberlack U, Hanlon L et al. The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s. Dans Nikzad S, Den Herder JWA, Nakazawa K, rédacteurs en chef, Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray. SPIE. 2018. 106992J. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.2315151

The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s

Résumé

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