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Closing in on a Short‐Hard Burst Progenitor: Constraints from Early‐Time Optical Imaging and Spectroscopy of a Possible Host Galaxy of GRB 050509b

2006; IOP Publishing; Volume: 638; Issue: 1 Linguagem: Inglês

10.1086/498107

1538-4357

J. S. Bloom, J. X. Prochaska, D. Pooley, Cullen H. Blake, R. J. Foley, Saurabh W. Jha, E. Ramirez‐Ruiz, Jonathan Granot, A. V. Filippenko, Steinn Sigurðsson, Aaron J. Barth, Hsiao‐Wen Chen, Michael C. Cooper, E. Falco, R. R. Gal, Brian F. Gerke, M. D. Gladders, Jenny E. Greene, J. Hennanwi, Luis C. Ho, K. Hurley, Benjamin P. Koester, Wenyu Li, L. M. Lubin, Jeffrey A. Newman, D. A. Perley, G. Squires, W. M. Wood‐Vasey,

Pulsars and Gravitational Waves Research

The localization of the short-duration, hard-spectrum GRB 050509b was a watershed event. Thanks to the nearly immediate relay of the GRB position by Swift, we began imaging the GRB field 8 minutes after the burst and continued for the following 8 days. No convincing optical/infrared candidate afterglow or supernova was found for the object. We present a re-analysis of the XRT afterglow and find an absolute position that is ~4" to the west of the XRT position reported previously. Close to this position is a bright elliptical galaxy with redshift z=0.2248, about 1' from the center of a rich cluster of galaxies. Based on positional coincidences, the GRB and the bright elliptical are likely to be physically related. We thus have discovered evidence that at least some short-duration, hard-spectra GRBs arise at cosmological distances. However, while GRB 050509b was underluminous compared to long-duration GRBs, we demonstrate that the ratio of the blast-wave energy to the gamma-ray energy is consistent with that of long-duration GRBs. Based on this analysis, on the location of the GRB (40 +- 13 kpc from a bright galaxy), on the galaxy type (elliptical), and the lack of a coincident supernova, we suggest that there is now observational consistency with the hypothesis that short-hard bursts arise during the merger of a compact binary. We limit the properties of a Li-Paczynski ''mini-supernova.'' Other progenitor models are still viable, and additional rapidly localized bursts from the Swift mission will undoubtedly help to further clarify the progenitor picture. (abridged)