Astronomy and Astrophysics – Astrophysics
Scientific paper
2006-10-30
Astrophys.J.659:1420-1430,2007
Astronomy and Astrophysics
Astrophysics
14 pages, 3 figures, 2 tables added, references added. Accepted for publication in ApJ. Replaced with the accepted version
Scientific paper
10.1086/512481
The gamma-ray burst (GRB) 060218 has ~ 10^5 times lower luminosity than typical long GRBs, and is associated with a supernova (SN). The radio afterglow displays no jet break, so that this burst might arise from a mildly-relativistic spherical outflow produced by the SN shock sweeping the stellar surface. Since this model is energetically difficult, we propose that the radio afterglow is produced by a non-relativistic phase of an initially collimated outflow (jet). Our jet model is supported by the detection of optical linear polarization in the SN component. We also show analytically that the jet can penetrate a progenitor star. We analyzed the observational data of the prompt emission of this burst and obtained a smooth power-law light curve which might last longer than 10^6s. This behavior contrasts with the long intermittent activities with the X-ray flares of typical GRBs, implying that the central engine of this burst is different from those of typical GRBs. This argument is consistent with the analysis of the SN component of this burst, which suggests that the progenitor star was less massive and collapsed to a neutron star instead of a black hole. The collimation-corrected event rate of such low-luminosity GRBs is estimated to be ~ 10 times higher than that of typical long GRBs, and they might form a different GRB population: low-luminosity GRBs are produced by mildly-relativistic jets from neutron stars at the collapses of massive stars, while typical long GRBs by highly-relativistic jets from black holes. We suggest that the central engine of GRB 060218 is a pulsar (or a magnetar) with the initial rotation period P_0 \~ 10ms and the magnetic field B ~ 10^16G. A giant flare from the magnetar might be observed in future.
Ioka Kunihito
Nakamura Takashi
Sakamoto Takanori
Toma Kenji
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