GRB 161219B-SN 2016jca: a powerful stellar collapse
Abstract
We report observations and analysis of the nearby gamma-ray burst GRB\,161219B (redshift ) and the associated Type Ic supernova (SN) 2016jca. GRB\,161219B had an isotropic gamma-ray energy of \,erg. Its afterglow is likely refreshed at an epoch preceding the first photometric points (0.6\,d), which slows down the decay rates. Combined analysis of the SN light curve and multiwavelength observations of the afterglow suggest that the GRB jet was broad during the afterglow phase (full opening angle ). Our spectral series shows broad absorption lines typical of GRB supernovae (SNe), which testify to the presence of material with velocities up to c. The spectrum at 3.73\,d allows for the very early identification of a SN associated with a GRB. Reproducing it requires a large photospheric velocity (\,\kms). The kinetic energy of the SN is estimated through models to be \KE \,erg in spherical symmetry. The ejected mass in the explosion was \Mej \,\Msun, much less than that of other GRB-SNe, demonstrating diversity among these events. The total amount of \Nifs\ in the explosion was \,\Msun. The observed spectra require the presence of freshly synthesised \Nifs\ at the highest velocities, at least 3 times more than a standard GRB-SN. We also find evidence for a decreasing \Nifs\ abundance as a function of decreasing velocity. This suggests that SN\,2016jca was a highly aspherical explosion viewed close to on-axis, powered by a compact remnant. Applying a typical correction for asymmetry, the energy of SN\,2016jca was (1--3) \,erg, confirming that most of the energy produced by GRB-SNe goes into the kinetic energy of the SN ejecta.
Cite
@article{arxiv.1702.04339,
title = {GRB 161219B-SN 2016jca: a powerful stellar collapse},
author = {C. Ashall and P. A. Mazzali and E. Pian and S. E. Woosley and E. Palazzi and S. J. Prentice and S. Kobayashi and S. Holmbo and A. Levan and D. Perley and M. D. Stritzinger and F. Bufano and A. V. Filippenko and A. Melandri and S. Oates and A. Rossi and J. Selsing and W. Zheng and A. J. Castro-Tirado and G. Chincarini and P. D'Avanzo and M. De Pasquale and S. Emery and A. S. Fruchter and K. Hurley and P. Moller and K. Nomoto and M. Tanaka and A. F. Valeev},
journal= {arXiv preprint arXiv:1702.04339},
year = {2019}
}
Comments
Accepted for publication in MNRAS, minor changes to figure