The detection and the characterization of the highenergy emission component from individual gamma-ray bursts (GRBs) is one of the key science objectives of the currently operating gamma-ray satellite AGILE, launched in April 2007. In its first two years of operation AGILE detected three GRBs with photons of energy larger than 30 MeV. One more GRB was detected in AGILE third operation year, while operating in spinning mode. For the 64 other GRBs localized during the period July 2007 to October 2009 in the field of view of the AGILE Gamma-Ray Imaging Detector (GRID), but not detected by this instrument, we estimate the count and flux upper limits on the GRB high energy emission in the AGILE-GRID energy band (30 MeV−3 GeV). The estimated flux upper limits range between 1×10-4 and ~2×10-2 photons cm-2 s-1 and generally lie above the flux estimated from the extrapolation of the prompt emission in the 30 MeV−3 GeV band. A notable case is GRB 080721, where the AGILE-GRID upper limit suggests a steeper spectral index or the presence of a cut-off in the high energy part of the Band prompt spectrum. The four GRBs detected by AGILE-GRID show high-energy (30 MeV−3 GeV) to low-energy (1 keV−10 MeV) fluence ratios similar to those estimated in this paper for the 64 GRBs without GRID detection, favoring the possibility that AGILE-GRID detected only high-fluence, hard GRBs. From the flux upper limits derived in this work we put some constraint on high-energy radiation from the afterglow emission and from synchrotron self Compton emission in internal shocks.

Upper limits on the high-energy emission from gamma ray bursts observed by AGILE-GRID

LONGO, FABIANA;Tavani M;FIORINI, MASSIMILIANO;Galli M;LIPARI, PAOLO;Prest M;
2012-01-01

Abstract

The detection and the characterization of the highenergy emission component from individual gamma-ray bursts (GRBs) is one of the key science objectives of the currently operating gamma-ray satellite AGILE, launched in April 2007. In its first two years of operation AGILE detected three GRBs with photons of energy larger than 30 MeV. One more GRB was detected in AGILE third operation year, while operating in spinning mode. For the 64 other GRBs localized during the period July 2007 to October 2009 in the field of view of the AGILE Gamma-Ray Imaging Detector (GRID), but not detected by this instrument, we estimate the count and flux upper limits on the GRB high energy emission in the AGILE-GRID energy band (30 MeV−3 GeV). The estimated flux upper limits range between 1×10-4 and ~2×10-2 photons cm-2 s-1 and generally lie above the flux estimated from the extrapolation of the prompt emission in the 30 MeV−3 GeV band. A notable case is GRB 080721, where the AGILE-GRID upper limit suggests a steeper spectral index or the presence of a cut-off in the high energy part of the Band prompt spectrum. The four GRBs detected by AGILE-GRID show high-energy (30 MeV−3 GeV) to low-energy (1 keV−10 MeV) fluence ratios similar to those estimated in this paper for the 64 GRBs without GRID detection, favoring the possibility that AGILE-GRID detected only high-fluence, hard GRBs. From the flux upper limits derived in this work we put some constraint on high-energy radiation from the afterglow emission and from synchrotron self Compton emission in internal shocks.
2012
AGILE; gamma ray burst
Longo, Fabiana; Moretti, E; Nava, L; Desiante, R; Olivo, M; Del Monte, E; Rappoldi, A; Fuschino, F; Marisaldi, M; Giuliani, A; Cutini, S; Feroci, M; Costa, E; Pittori, C; Tavani, M; Argan, A; Barbiellini, G; Bulgarelli, A; Caraveo, P; Cardillo, M; Cattaneo, Pw; Chen, Aw; D'Ammando, F; Di Cocco, G; Donnarumma, I; Evangelista, Y; Ferrari, A; Fiorini, Massimiliano; Galli, M; Gianotti, F; Giusti, M; Labanti, C; Lapshov, I; Lazzarotto, F; Lipari, Paolo; Mereghetti, S; Morselli, A; Pacciani, L; Pellizzoni, A; Perotti, F; Piano, G; Picozza, P; Pilia, M; Prest, M; Pucella, G; Rapisarda, M; Rubini, A; Sabatini, S; Soffitta, P; Striani, E; Trifoglio, M; Trois, A; Vallazza, E; Vercellone, S; Vittorini, V; Zanello, D; Antonelli, La; Colafrancesco, S; Giommi, P; Santolamazza, P; Verrecchia, F; Lucarelli, F; Salotti, L
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/1914720
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