GRB171205A/SN2017iuk: A local low-luminosity gamma-ray burst

TL;DR

This paper reports on GRB 171205A, a nearby low-luminosity gamma-ray burst associated with a supernova, analyzing multi-wavelength data to understand its unique properties and how it differs from typical cosmological GRBs.

Contribution

The study provides a detailed multi-wavelength analysis of GRB 171205A, highlighting its low luminosity, unique spectral features, and deviation from the Amati relation, contributing new insights into local low-luminosity GRBs.

Findings

The supernova associated with GRB 171205A resembles SN 2006aj but is dimmer and shifted in time.

The X-ray spectrum shows a low intrinsic hydrogen column density and a thermal component.

GRB 171205A's gamma-ray energy and peak energy make it an outlier of the Amati relation.

Abstract

Gamma-ray bursts (GRBs) occurring in the local Universe constitute an interesting sub-class of the GRB family, since their luminosity is on average lower than that of their cosmological analogs. We aim to contribute to the study of local bursts by reporting the case of GRB 171205A. This source was discovered by Swift Burst Alert Telescope (BAT) on 2017, December 5 and soon associated with a low redshift host galaxy (z=0.037), and an emerging SN (SN 2017iuk). We analyzed the full Swift, dataset, comprising the UV-Optical Telescope (UVOT), X-ray Telescope (XRT) and BAT data. In addition, we employed the Konus-Wind high energy data as a valuable extension at gamma-ray energies. The photometric SN signature is clearly visible in the UVOT u, b and v filters. The maximum emission is reached at ~ 13 (rest frame) days, and the whole bump resembles that of SN 2006aj, but lower in magnitude and with a shift in time of +2 d. A prebump in the v-band is also clearly visible, and this is the first time that such a feature is not observed achromatically in GRB-SNe. Its physical origin cannot be easily explained. The X-ray spectrum shows an intrinsic Hydrogen column density N_H,int = 7.4(+4.1 -3.6) X 10^20 / cm^2$, which is at the low end of the N_H,int, even considering just low redshift GRBs. The spectrum also features a thermal component, which is quite common in GRBs associated with SNe, but whose origin is still a matter of debate. Finally, the isotropic energy in the gamma-ray band, E_iso = 2.18(+0.63 -0.50) X 10^49 erg, is lower than those of cosmological GRBs. Combining this value with the peak energy in the same band, E_p=125(+141 -37) keV, implies that GRB 171205A is an outlier of the Amati relation, as are some other low redshift GRBs, and its emission mechanism should be different from that of canonical, farther away GRBs.