Literature DB >> 35027772

Investigating the Nature of Late-Time High-Energy GRB Emission Through Joint Fermi /Swift Observations.

M Ajello1, L Baldini2, G Barbiellini3,4, D Bastieri5,6, R Bellazzini7, E Bissaldi8,9, R D Blandford10, R Bonino11,12, E Bottacini10, J Bregeon13, P Bruel14, R Buehler15, R A Cameron10, R Caputo16, P A Caraveo17, G Chiaro17, S Ciprini18,19, J Cohen-Tanugi13, D Costantin6, F D'Ammando20,21, F DE Palma9,22, N DI Lalla2, M DI Mauro10, L DI Venere8,9, A Domínguez23, C Favuzzi8,9, A Franckowiak15, Y Fukazawa24, S Funk25, P Fusco8,9, F Gargano9, D Gasparrini18,19, N Giglietto8,9, F Giordano8,9, M Giroletti20, D Green26,27, I A Grenier28, S Guiriec29,27, C Holt30, D Horan14, G Jóhannesson31,32, D Kocevski27, M Kuss7, G LA Mura6, S Larsson33,34, J Li35, F Longo3,4, F Loparco8,9, P Lubrano19, J D Magill26, S Maldera11, A Manfreda2, M N Mazziotta9, P F Michelson10, T Mizuno36, M E Monzani10, A Morselli37, M Negro11,12, E Nuss13, N Omodei10, M Orienti20, E Orlando10, V S Paliya1, J S Perkins27, M Persic3,38, M Pesce-Rollins7, F Piron13, G Principe25, J L Racusin27, S Rainò8,9, R Rando5,6, M Razzano7,39, S Razzaque40, A Reimer41,10, O Reimer41,10, C Sgrò7, E J Siskind42, G Spandre7, P Spinelli8,9, D Tak26,27, J B Thayer10, D F Torres35,43, G Tosti19,44, J Valverde14, M Vogel45, K Wood46.   

Abstract

We use joint observations by the Neil Gehrels Swift X-ray Telescope (XRT) and the Fermi Large Area Telescope (LAT) of gamma-ray burst (GRB) afterglows to investigate the nature of the long-lived high-energy emission observed by Fermi LAT. Joint broadband spectral modeling of XRT and LAT data reveal that LAT non-detections of bright X-ray afterglows are consistent with a cooling break in the inferred electron synchrotron spectrum below the LAT and/or XRT energy ranges. Such a break is sufficient to suppress the high-energy emission so as to be below the LAT detection threshold. By contrast, LAT-detected bursts are best fit by a synchrotron spectrum with a cooling break that lies either between or above the XRT and LAT energy ranges. We speculate that the primary difference between GRBs with LAT afterglow detections and the non-detected population may be in the type of circumstellar environment in which these bursts occur, with late-time LAT detections preferentially selecting GRBs that occur in low wind-like circumburst density profiles. Furthermore, we find no evidence of high-energy emission in the LAT-detected population significantly in excess of the flux expected from the electron synchrotron spectrum fit to the observed X-ray emission. The lack of excess emission at high energies could be due to a shocked external medium in which the energy density in the magnetic field is stronger than or comparable to that of the relativistic electrons behind the shock, precluding the production of a dominant synchrotron self-Compton (SSC) component in the LAT energy range. Alternatively, the peak of the SSC emission could be beyond the 0.1-100 GeV energy range considered for this analysis.

Entities:  

Keywords:  bursts; gamma-rays; general

Year:  2018        PMID: 35027772      PMCID: PMC8753637          DOI: 10.3847/1538-4357/aad000

Source DB:  PubMed          Journal:  Astrophys J        ISSN: 0004-637X            Impact factor:   5.874


  3 in total

1.  Bright x-ray flares in gamma-ray burst afterglows.

Authors:  D N Burrows; P Romano; A Falcone; S Kobayashi; B Zhang; A Moretti; P T O'brien; M R Goad; S Campana; K L Page; L Angelini; S Barthelmy; A P Beardmore; M Capalbi; G Chincarini; J Cummings; G Cusumano; D Fox; P Giommi; J E Hill; J A Kennea; H Krimm; V Mangano; F Marshall; P Mészáros; D C Morris; J A Nousek; J P Osborne; C Pagani; M Perri; G Tagliaferri; A A Wells; S Woosley; N Gehrels
Journal:  Science       Date:  2005-08-18       Impact factor: 47.728

2.  Fermi observations of high-energy gamma-ray emission from GRB 080916C.

Authors:  A A Abdo; M Ackermann; M Arimoto; K Asano; W B Atwood; M Axelsson; L Baldini; J Ballet; D L Band; G Barbiellini; M G Baring; D Bastieri; M Battelino; B M Baughman; K Bechtol; F Bellardi; R Bellazzini; B Berenji; P N Bhat; E Bissaldi; R D Blandford; E D Bloom; G Bogaert; J R Bogart; E Bonamente; J Bonnell; A W Borgland; A Bouvier; J Bregeon; A Brez; M S Briggs; M Brigida; P Bruel; T H Burnett; D Burrows; G Busetto; G A Caliandro; R A Cameron; P A Caraveo; J M Casandjian; M Ceccanti; C Cecchi; A Celotti; E Charles; A Chekhtman; C C Cheung; J Chiang; S Ciprini; R Claus; J Cohen-Tanugi; L R Cominsky; V Connaughton; J Conrad; L Costamante; S Cutini; M Deklotz; C D Dermer; A de Angelis; F de Palma; S W Digel; B L Dingus; E do Couto E Silva; P S Drell; R Dubois; D Dumora; Y Edmonds; P A Evans; D Fabiani; C Farnier; C Favuzzi; J Finke; G Fishman; W B Focke; M Frailis; Y Fukazawa; S Funk; P Fusco; F Gargano; D Gasparrini; N Gehrels; S Germani; B Giebels; N Giglietto; P Giommi; F Giordano; T Glanzman; G Godfrey; A Goldstein; J Granot; J Greiner; I A Grenier; M-H Grondin; J E Grove; L Guillemot; S Guiriec; G Haller; Y Hanabata; A K Harding; M Hayashida; E Hays; J A Hernando Morat; A Hoover; R E Hughes; G Jóhannesson; A S Johnson; R P Johnson; T J Johnson; W N Johnson; T Kamae; H Katagiri; J Kataoka; A Kavelaars; N Kawai; H Kelly; J Kennea; M Kerr; R M Kippen; J Knödlseder; D Kocevski; M L Kocian; N Komin; C Kouveliotou; F Kuehn; M Kuss; J Lande; D Landriu; S Larsson; L Latronico; C Lavalley; B Lee; S-H Lee; M Lemoine-Goumard; G G Lichti; F Longo; F Loparco; B Lott; M N Lovellette; P Lubrano; G M Madejski; A Makeev; B Marangelli; M N Mazziotta; S McBreen; J E McEnery; S McGlynn; C Meegan; P Mészáros; C Meurer; P F Michelson; M Minuti; N Mirizzi; W Mitthumsiri; T Mizuno; A A Moiseev; C Monte; M E Monzani; E Moretti; A Morselli; I V Moskalenko; S Murgia; T Nakamori; D Nelson; P L Nolan; J P Norris; E Nuss; M Ohno; T Ohsugi; A Okumura; N Omodei; E Orlando; J F Ormes; M Ozaki; W S Paciesas; D Paneque; J H Panetta; D Parent; V Pelassa; M Pepe; M Perri; M Pesce-Rollins; V Petrosian; M Pinchera; F Piron; T A Porter; R Preece; S Rainò; E Ramirez-Ruiz; R Rando; E Rapposelli; M Razzano; S Razzaque; N Rea; A Reimer; O Reimer; T Reposeur; L C Reyes; S Ritz; L S Rochester; A Y Rodriguez; M Roth; F Ryde; H F-W Sadrozinski; D Sanchez; A Sander; P M Saz Parkinson; J D Scargle; T L Schalk; K N Segal; C Sgrò; T Shimokawabe; E J Siskind; D A Smith; P D Smith; G Spandre; P Spinelli; M Stamatikos; J-L Starck; F W Stecker; H Steinle; T E Stephens; M S Strickman; D J Suson; G Tagliaferri; H Tajima; H Takahashi; T Takahashi; T Tanaka; A Tenze; J B Thayer; J G Thayer; D J Thompson; L Tibaldo; D F Torres; G Tosti; A Tramacere; M Turri; S Tuvi; T L Usher; A J van der Horst; L Vigiani; N Vilchez; V Vitale; A von Kienlin; A P Waite; D A Williams; C Wilson-Hodge; B L Winer; K S Wood; X F Wu; R Yamazaki; T Ylinen; M Ziegler
Journal:  Science       Date:  2009-02-19       Impact factor: 47.728

3.  Fermi-LAT observations of the gamma-ray burst GRB 130427A.

Authors:  M Ackermann; M Ajello; K Asano; W B Atwood; M Axelsson; L Baldini; J Ballet; G Barbiellini; M G Baring; D Bastieri; K Bechtol; R Bellazzini; E Bissaldi; E Bonamente; J Bregeon; M Brigida; P Bruel; R Buehler; J Michael Burgess; S Buson; G A Caliandro; R A Cameron; P A Caraveo; C Cecchi; V Chaplin; E Charles; A Chekhtman; C C Cheung; J Chiang; G Chiaro; S Ciprini; R Claus; W Cleveland; J Cohen-Tanugi; A Collazzi; L R Cominsky; V Connaughton; J Conrad; S Cutini; F D'Ammando; A de Angelis; M DeKlotz; F de Palma; C D Dermer; R Desiante; A Diekmann; L Di Venere; P S Drell; A Drlica-Wagner; C Favuzzi; S J Fegan; E C Ferrara; J Finke; G Fitzpatrick; W B Focke; A Franckowiak; Y Fukazawa; S Funk; P Fusco; F Gargano; N Gehrels; S Germani; M Gibby; N Giglietto; M Giles; F Giordano; M Giroletti; G Godfrey; J Granot; I A Grenier; J E Grove; D Gruber; S Guiriec; D Hadasch; Y Hanabata; A K Harding; M Hayashida; E Hays; D Horan; R E Hughes; Y Inoue; T Jogler; G Jóhannesson; W N Johnson; T Kawano; J Knödlseder; D Kocevski; M Kuss; J Lande; S Larsson; L Latronico; F Longo; F Loparco; M N Lovellette; P Lubrano; M Mayer; M N Mazziotta; J E McEnery; P F Michelson; T Mizuno; A A Moiseev; M E Monzani; E Moretti; A Morselli; I V Moskalenko; S Murgia; R Nemmen; E Nuss; M Ohno; T Ohsugi; A Okumura; N Omodei; M Orienti; D Paneque; V Pelassa; J S Perkins; M Pesce-Rollins; V Petrosian; F Piron; G Pivato; T A Porter; J L Racusin; S Rainò; R Rando; M Razzano; S Razzaque; A Reimer; O Reimer; S Ritz; M Roth; F Ryde; A Sartori; P M Saz Parkinson; J D Scargle; A Schulz; C Sgrò; E J Siskind; E Sonbas; G Spandre; P Spinelli; H Tajima; H Takahashi; J G Thayer; J B Thayer; D J Thompson; L Tibaldo; M Tinivella; D F Torres; G Tosti; E Troja; T L Usher; J Vandenbroucke; V Vasileiou; G Vianello; V Vitale; B L Winer; K S Wood; R Yamazaki; G Younes; H-F Yu; S J Zhu; P N Bhat; M S Briggs; D Byrne; S Foley; A Goldstein; P Jenke; R M Kippen; C Kouveliotou; S McBreen; C Meegan; W S Paciesas; R Preece; A Rau; D Tierney; A J van der Horst; A von Kienlin; C Wilson-Hodge; S Xiong; G Cusumano; V La Parola; J R Cummings
Journal:  Science       Date:  2013-11-21       Impact factor: 47.728
  3 in total

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