Multi-wavelength observations of the energetic GRB 080810: detailed   mapping of the broadband spectral evolution

K.L. Page (1); R. Willingale (1); E. Bissaldi (2); A. de Ugarte; Postigo (3); S.T. Holland (4,5,6); S. McBreen (7,2); P.T. O'Brien (1); J.P.; Osborne (1); J.X. Prochaska (8); E. Rol (1,9); E.S. Rykoff (10); R.L.C.; Starling (1); N.R. Tanvir (1); A.J. van der Horst (11,12); K. Wiersema (1),; B. Zhang (13); F.J. Aceituno (14); C. Akerlof (15); A.P. Beardmore (1); M.S.; Briggs (16); D.N. Burrows (17); A.J. Castro-Tirado (14); V. Connaughton (16),; P.A. Evans (1); J.P.U. Fynbo (18); N. Gehrels (4); C. Guidorzi (19,20); A.W.; Howard (21); J.A. Kennea (17); C. Kouveliotou (11); C. Pagani (17); R. Preece; (16); D. Perley (21); F. Yuan (15) ((1) University of Leicester; (2) MPE,; (3) ESO; (4) GSFC; (5) USRA; (6) CRESST; (7) UCD; (8) UCO/Lick Observatory,; (9) Astronomical Institute Anton Pannekoek; University of Amsterdam; (10); University of California at Santa Barbara; (11) MSFC; (12) NASA Postdoctoral; Program Fellow; (13) University of Nevada; (14) CSIC; (15) University of; Michigan; (16) University of Alabama in Huntsville; (17) PSU; (18) Dark; Cosmology Centre; (19) University of Ferrara; (20) Liverpool John Moores; University; (21) University of California; Berkeley)

arXiv:0907.4578·astro-ph.HE·December 2, 2009

Multi-wavelength observations of the energetic GRB 080810: detailed mapping of the broadband spectral evolution

K.L. Page (1), R. Willingale (1), E. Bissaldi (2), A. de Ugarte, Postigo (3), S.T. Holland (4,5,6), S. McBreen (7,2), P.T. O'Brien (1), J.P., Osborne (1), J.X. Prochaska (8), E. Rol (1,9), E.S. Rykoff (10), R.L.C., Starling (1), N.R. Tanvir (1), A.J. van der Horst (11,12)

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TL;DR

This paper presents comprehensive multi-wavelength observations of GRB 080810, detailing its spectral evolution, afterglow behavior, and energetic properties across gamma-ray, X-ray, UV/optical, and radio bands.

Contribution

It provides a detailed broadband spectral mapping of GRB 080810's evolution, including spectral breaks and energy estimates, offering new insights into its emission mechanisms.

Findings

01

Gamma-ray spectrum softens from 600 keV to 40 keV over 100 s.

02

Optical afterglow originates from the afterglow component, not prompt emission.

03

No jet break observed up to six days post-burst.

Abstract

GRB 080810 was one of the first bursts to trigger both Swift and the Fermi Gamma-ray Space Telescope. It was subsequently monitored over the X-ray and UV/optical bands by Swift, in the optical by ROTSE and a host of other telescopes and was detected in the radio by the VLA. The redshift of z= 3.355 +/- 0.005 was determined by Keck/HIRES and confirmed by RTT150 and NOT. The prompt gamma/X-ray emission, detected over 0.3-10^3 keV, systematically softens over time, with E_peak moving from ~600 keV at the start to ~40 keV around 100 s after the trigger; alternatively, this spectral evolution could be identified with the blackbody temperature of a quasithermal model shifting from ~60 keV to ~3 keV over the same time interval. The first optical detection was made at 38 s, but the smooth, featureless profile of the full optical coverage implies that this originated from the afterglow…

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