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Gamma Ray Burst studies with THESEUS

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journal contribution
posted on 2024-03-20, 13:33 authored by G Ghirlanda, R Salvaterra, M Toffano, S Ronchini, C Guidorzi, G Oganesyan, S Ascenzi, MG Bernardini, AE Camisasca, S Mereghetti, L Nava, ME Ravasio, M Branchesi, A Castro-Tirado, L Amati, A Blain, E Bozzo, P O'Brien, D Götz, E Le Floch, JP Osborne, P Rosati, G Stratta, N Tanvir, AI Bogomazov, P D'Avanzo, M Hafizi, S Mandhai, A Melandri, A Peer, M Topinka, SD Vergani, S Zane

Gamma-ray Bursts (GRBs) are the most powerful transients in the Universe, over-shining for a few seconds all other γ-ray sky sources. Their emission is produced within narrowly collimated relativistic jets launched after the core-collapse of massive stars or the merger of compact binaries. THESEUS will open a new window for the use of GRBs as cosmological tools by securing a statistically significant sample of high-z GRBs, as well as by providing a large number of GRBs at low-intermediate redshifts extending the current samples to low luminosities. The wide energy band and unprecedented sensitivity of the Soft X-ray Imager (SXI) and X-Gamma rays Imaging Spectrometer (XGIS) instruments provide us a new route to unveil the nature of the prompt emission. For the first time, a full characterisation of the prompt emission spectrum from 0.3 keV to 10 MeV with unprecedented large count statistics will be possible revealing the signatures of synchrotron emission. SXI spectra, extending down to 0.3 keV, will constrain the local metal absorption and, for the brightest events, the progenitors' ejecta composition. Investigation of the nature of the internal energy dissipation mechanisms will be obtained through the systematic study with XGIS of the sub-second variability unexplored so far over such a wide energy range. THESEUS will follow the spectral evolution of the prompt emission down to the soft X-ray band during the early steep decay and through the plateau phase with the unique ability of extending above 10 keV the spectral study of these early afterglow emission phases.

Funding

ASI-INAF agreement n. 2018-29-HH.0

FIGARO 1.05.06.13

INAF-PRIN 1.05.01.88.06

PRIN-MIUR 2017 (grant 20179ZF5KS)

ASI/INAF n. I/004/11/4

History

Citation

Experimental Astronomy (2021) 52:277–308

Author affiliation

Department of Physics, Astronomy

Version

  • VoR (Version of Record)

Published in

Experimental Astronomy

Volume

52

Pagination

277–308

Publisher

Springer

issn

0922-6435

eissn

1572-9508

Acceptance date

2021-05-12

Copyright date

2021

Available date

2024-03-20

Notes

Submitted to Experimental Astronomy

Language

en

Rights Retention Statement

  • No

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