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arxiv: 0809.4231 · v1 · pith:QTMHU2G2new · submitted 2008-09-24 · 🌌 astro-ph

Optical and infrared flares from a transient Galactic soft gamma-ray repeater

A.J. Castro-Tirado (1) , A. de Ugarte Postigo (2 , 1) , J. Gorosabel (1) , M. Jelinek (1) , T.A. Fatkhullin (3) , V.V. Sokolov (3) , P. Ferrero (4)
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D.A. Kann (4) S. Klose (4) D. Sluse (5) M. Bremer (6) J.M. Winters (6) D. Nuernberger (2) D. Perez-Ramirez (7) M.A. Guerrero (1) J. French (8) G. Melady (8) L. Hanlon (8) B. McBreen (8) F.J. Aceituno (1) R. Cunniffe (1) P. Kubanek (1) S. Vitek (1) S. Schulze (4) A.C. Wilson (9) R. Hudec (10) J.M. Gonzalez-Perez (11) T. Shahbaz (11) S. Guziy (12) S.B. Pandey (13) L. Pavlenko (14) E. Sonbas (3 15) S.A. Trushkin (3) N.N. Bursov (3) N.A. Nizhelskij (3) L. Sabau-Graziati (16) ((1) IAA-CSIC Granada Spain (2) ESO Chile (3) SAO-RAS Russia (4) TLS Tautenburg Germany (5) EFPL Switzerland (6) IRAM France (7) Univ. of Jaen Jaen (8) Univ. College Dublin Ireland (9) Univ. of Texas Austin USA (10) Institute of the Czech Academy of Sciences Ondrejov Czech Republic (11) IAC La Laguna Tenerife (12) Nikolaev State Univ. Nikolaev Ukraine (13) ARIES Nainital India (14) Crimean Astrophysical Observatory Nauchny (15) Univ. of Cukurova Adana Turkey (16) INTA Torrejon de Ardoz Madrid Spain)
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classification 🌌 astro-ph
keywords gamma-rayopticaldetectedsgrstransientbeenburstsdays
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Soft gamma-ray repeaters (SGRs) are a rare type of gamma-ray transient sources that are ocasionally detected as bursts in the high-energy sky. They are thought to be produced by magnetars, young neutron stars with very strong magnetic fields of the order of 10^(14-15) G. Only three such objects are known in our Galaxy, and a fourth one is associated with the supernova remnant N49 in the Large Magellanic Cloud. In none of these cases has an optical counterpart to either the gamma-ray flares or the quiescent source been identified. Here we present multi-wavelength observations of a puzzling source, SWIFT J195509+261406, for which we detected more than 40 flaring episodes in the optical band over a time span of 3 days, plus a faint infrared flare 11 days later, after which it returned to quiescence. We propose that SWIFT J195509+261406 is a member of a subgroup of SGRs for which the long-term X-ray emission is transient in nature. Furthermore, it is the first SGR for which bursts have been detected in the optical and near-infrared bands and maybe the link between the "persistent" SGRs and the dim isolated neutron stars.

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