Swift Panchromatic Observations of the Bright Gamma-Ray Burst GRB 050525a

A. J. Blustin; D. Band; S. Barthelmy; P. Boyd; M. Capalbi; S. T. Holland; F. E. Marshall; K. O. Mason; M. Perri; T. Poole; P. Roming; S. Rosen; P. Schady; M. Still; B. Zhang; L. Angelini; L. Barbier; A. Beardmore; A. Breeveld; D. N. Burrows; J. R. Cummings; J. Canizzo; S. Campana; M. M. Chester; G. Chincarini; L. R. Cominsky; A. Cucchiara; M. de Pasquale; E. E. Fenimore; N. Gehrels; P. Giommi; M. Goad; C. Gronwall; D. Grupe; J. E. Hill; D. Hinshaw; S. Hunsberger; K. C. Hurley; M. Ivanushkina; J. A. Kennea; H. A. Krimm; P. Kumar; W. Landsman; V. La Parola; C. B. Markwardt; K. McGowan; P. Mészáros; T. Mineo; A. Moretti; A. Morgan; J. Nousek; P. T. O’Brien; J. P. Osborne; K. Page; M. J. Page; D. M. Palmer; A. M. Parsons; J. Rhoads; P. Romano; T. Sakamoto; G. Sato; G. Tagliaferri; J. Tueller; A. A. Wells; N. E. White

doi:10.1086/498425

Swift Panchromatic Observations of the Bright Gamma-Ray Burst GRB 050525a

A. J. Blustin¹, D. Band², S. Barthelmy², P. Boyd², M. Capalbi³, S. T. Holland², F. E. Marshall², K. O. Mason¹, M. Perri³, T. Poole¹, P. Roming⁴, S. Rosen¹, P. Schady^1,4, M. Still², B. Zhang⁵, L. Angelini², L. Barbier², A. Beardmore⁶, A. Breeveld¹, D. N. Burrows⁴, J. R. Cummings², J. Canizzo², S. Campana⁷, M. M. Chester⁴, G. Chincarini⁷, L. R. Cominsky⁸, A. Cucchiara⁴, M. de Pasquale¹, E. E. Fenimore⁹, N. Gehrels², P. Giommi³, M. Goad⁶, C. Gronwall⁴, D. Grupe⁴, J. E. Hill², D. Hinshaw², S. Hunsberger⁴, K. C. Hurley¹⁰, M. Ivanushkina⁴, J. A. Kennea⁴, H. A. Krimm², P. Kumar¹¹, W. Landsman², V. La Parola¹², C. B. Markwardt², K. McGowan¹, P. Mészáros⁴, T. Mineo¹², A. Moretti⁷, A. Morgan⁴, J. Nousek⁴, P. T. O'Brien⁶, J. P. Osborne⁶, K. Page⁶, M. J. Page¹, D. M. Palmer⁹, A. M. Parsons², J. Rhoads¹³, P. Romano⁷, T. Sakamoto², G. Sato¹⁴, G. Tagliaferri⁷, J. Tueller², A. A. Wells⁶, and N. E. White²

© 2006. The American Astronomical Society. All rights reserved. Printed in U.S.A.
The Astrophysical Journal, Volume 637, Number 2 Citation A. J. Blustin et al 2006 ApJ 637 901 DOI 10.1086/498425

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¹ Department of Space and Climate Physics, Mullard Space Science Laboratory, University College London, Holmbury St. Mary, Dorking, Surrey, RH5 6NT, UK

² NASA Goddard Space Flight Center, Greenbelt, MD 20771

³ ASI Science Data Center, via Galileo Galilei, I-00044 Frascati (Rome), Italy

⁴ Department of Astronomy and Astrophysics, Pennsylvania State University, 525 Davey Laboratory, University Park, PA 16802

⁵ Department of Physics, University of Nevada at Las Vegas, 4505 South Maryland Parkway, Las Vegas, NV 89154

⁶ Department of Physics and Astronomy, University of Leicester, University Road, Leicester LE1 7RH, UK

⁷ INAF-Osservatorio Astronomico di Brera, via Bianchi 46, I-23807 Merate, Italy

⁸ Department of Physics and Astronomy, Sonoma State University, 1801 East Cotati Avenue, Rohnert Park, CA 94928

⁹ Los Alamos National Laboratory, P.O. Box 1663, Los Alamos, NM 87545

¹⁰ Space Sciences Laboratory, University of California at Berkeley, 7 Gauss Way, Berkeley, CA 94720

¹¹ Department of Astronomy, University of Texas, RLM 15.308, Austin, TX 78712-1083

¹² INAF-Istituto di Astrofisica Spaziale e Cosmica, via Ugo La Malfa 153, I-90146 Palermo, Italy

¹³ Space Telescope Science Institute, 3700 San Martin Drive, Baltimore, MD 21218

¹⁴ Institute of Space and Astronautical Science, Kanagawa 229-8510, Japan

Dates

Received 2005 July 15
Accepted 2005 September 28

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Abstract

The bright gamma-ray burst GRB 050525a has been detected with the Swift observatory, providing unique multiwavelength coverage from the very earliest phases of the burst. The X-ray and optical/UV afterglow decay light curves both exhibit a steeper slope ~0.15 days after the burst, indicative of a jet break. This jet break time combined with the total gamma-ray energy of the burst constrains the opening angle of the jet to be 3 fdg 2. We derive an empirical "time-lag" redshift from the BAT data of = 0.69 ± 0.02, in good agreement with the spectroscopic redshift of 0.61. Prior to the jet break, the X-ray data can be modeled by a simple power law with index α = -1.2. However, after 300 s the X-ray flux brightens by about 30% compared to the power-law fit. The optical/UV data have a more complex decay, with evidence of a rapidly falling reverse shock component that dominates in the first minute or so, giving way to a flatter forward shock component at later times. The multiwavelength X-ray/UV/optical spectrum of the afterglow shows evidence for migration of the electron cooling frequency through the optical range within 25,000 s. The measured temporal decay and spectral indexes in the X-ray and optical/UV regimes compare favorably with the standard fireball model for gamma-ray bursts assuming expansion into a constant-density interstellar medium.

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Swift Panchromatic Observations of the Bright Gamma-Ray Burst GRB 050525a

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