Hard X-ray Spectral Investigations of Gamma-ray Bursts, 120521C and 130606A, at High-redshift z~6

Abstract

This study presents the temporal and spectral analysis of the prompt emission of two high-redshift gamma-ray bursts (GRBs), 120521C at z6 and 130606A at z5.91, which were performed using the Swift-XRT/BAT and the Suzaku-WAM simultaneously. Based on follow-up XRT observations, the longest durations of the prompt emissions were approximately 80 s (120521C) and 360 s (130606A) in the rest frame of each GRB, which are categorized as long-duration GRBs, but are insufficiently long compared with the predicted duration of GRBs that originate from first-generation stars. Because of the wide bandpass of the instruments covering the ranges of 15 keV--5 MeV (BAT-WAM) and 0.3 keV--5.0 MeV (XRT-BAT-WAM), we successfully determined the F peak energies E peak src of 682+845-207 keV and 1209+553-304 keV in the rest frame, and the isotropic-equivalent radiated energies E iso of (8.25+2.24-1.96)×1052 erg and (2.82+0.17-0.71)×1053 erg, respectively. These obtained characteristic parameters are in accordance with the well-known relation between E peak src and E iso (Amati relation). In addition, we examined the relations between E peak src and the 1-s peak luminosity, L p, or the geometrical corrected radiated energy, Eγ, and confirmed the E peak src-L p (Yonetoku) and E peak src-Eγ (Ghirlanda) relations. The results implied that these high-redshift GRBs at z6, expected as having radiated from the reionization epoch, have similar properties as that of X-ray prompt emission with low-redshift GRBs.