A New Relation between GRB Rest-Frame Spectra and Energetics and Its Utility on Cosmology
Abstract
We investigate the well-measured spectral and energetic properties of 20 gamma-ray bursts (GRBs) in their cosmological rest frames. We find a tight relation between the isotropic-equivalent gamma-ray energy Eiso, the local peak energy E'p of the νFν spectrum, and the local break time t'b of the GRB afterglow light curve, which reads Eiso*t'b E'p1.950.08 (χ2ν=1.40; OmegaM=0.27, OmegaLambda=0.73). Such a power-law relation can be understood via the high-energy radiation processes for the GRB prompt emission accompanying the beaming effects. We then consider this relation as an intrinsic one for the observed GRB sample, and obtain a constraint on the mass density OmegaM=0.24+0.16-0.12 (1σ) for a flat Lambda-CDM universe, and a χ2dof=1.33 for OmegaM≈0.3 and OmegaLambda≈0.7. Ongoing GRB observations in the Swift era are expected to confirm this relation and make its cosmological utility progress much.
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