Andreas von Kienlin, David Gruber, Chryssa Kouveliotou, Jonathan Granot, Matthew G. Baring, Ersin Göğüş, Daniela Huppenkothen, Yuki Kaneko, Lin Lin, Anna L. Watts, P. Narayana Bhat, Sylvain Guiriec, Alexander J. van der Horst, Elisabetta Bissaldi, Jochen Greiner, Charles A. Meegan, William S. Paciesas, Robert D. Preece, Arne Rau
In early October 2008, the Soft Gamma Repeater SGRJ1550 - 5418 (1E 1547.0 - 5408, AXJ155052 - 5418, PSR J1550 - 5418) became active, emitting a series of bursts which triggered the Fermi Gamma-ray Burst Monitor (GBM) after which a second especially intense activity period commenced in 2009 January and a third, less active period was detected in 2009 March-April. Here we analyze the GBM data all the bursts from the first and last active episodes. We performed temporal and spectral analysis for all events and found that their temporal characteristics are very similar to the ones of other SGR bursts, as well the ones reported for the bursts of the main episode (average burst durations \sim 170 ms). In addition, we used our sample of bursts to quantify the systematic uncertainties of the GBM location algorithm for soft gamma-ray transients to < 8 deg. Our spectral analysis indicates significant spectral evolution between the first and last set of events. Although the 2008 October events are best fit with a single blackbody function, for the 2009 bursts an Optically Thin Thermal Bremsstrahlung (OTTB) is clearly preferred. We attribute this evolution to changes in the magnetic field topology of the source, possibly due to effects following the very energetic main bursting episode.
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http://arxiv.org/abs/1206.4915
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