SIMBAD references

2008ApJ...688..456C - Astrophys. J., 688, 456-461 (2008/November-3)

Does the addition of a duration improve the Liso-EpeakRelation for gamma-ray bursts?

COLLAZZI A.C. and SCHAEFER B.E.

Abstract (from CDS):

Firmani et al. proposed a new gamma ray burst (GRB) luminosity relation that showed a significant improvement over the Liso-Epeak relation (where Liso is the isotropic peak luminosity and Epeak is the photon energy of the spectral peak for the burst). The new proposed relation simply modifies the Epeak value by multiplying it by a power of T0.45, where T0.45 is a particular measure of the GRB duration. We begin by reproducing the results of Firmani for his 19 bursts. We then test the Firmani relation for the same 19 bursts, except that we use independently measured values for Liso, T0.45, and Epeak, and we find that the relation deteriorates substantially. We further test the relation by using 60 GRBs with measured spectroscopic redshifts, and find a relation that has a comparable scatter as the original L iso-Epeakrelation. That is, a much larger sample of bursts does not reproduce the small scatter as reported by Firmani et al. Finally, we investigate whether the Firmani relation is improved by the use of any of 32 measures of duration (e.g., T90, T50, T90/Npeak, the fluence divided by the peak flux, T0.30, and T0.60) in place of T0.45. The quality of each alternative duration measure is evaluated with the root mean square of the scatter between the observed and fitted logarithmic Lisovalues. Although we find that some durations yield slightly better results than T0.45, the differences between the duration measures are minimal. We find that the addition of a duration does not add any significant improvement to the Liso-Epeakrelation. We also present a simple and direct derivation of the Firmani relation from both the Liso-Epeak and Amati relations. In all, we conclude that the Firmani relation neither has an independent existence nor does it provide any significant improvement on previously known relations that are simpler.

Abstract Copyright:

Journal keyword(s): Cosmology: Distance Scale - Gamma Rays: Bursts

Simbad objects: 69

goto Full paper

goto View the reference in ADS

To bookmark this query, right click on this link: simbad:2008ApJ...688..456C and select 'bookmark this link' or equivalent in the popup menu


2020.09.19-06:04:15

© Université de Strasbourg/CNRS

    • Contact