L. Nava, R. Salvaterra, G. Ghirlanda, G. Ghisellini, S. Campana, S. Covino, G. Cusumano, P. D'Avanzo, V. D'Elia, D. Fugazza, A. Melandri, B. Sbarufatti, S. D. Vergani, G. Tagliaferri
We use a nearly complete sample of Gamma Ray Bursts (GRBs) detected by the
Swift satellite to study the correlations between the spectral peak energy Ep
of the prompt emission, the isotropic energetics Eiso and the isotropic
luminosity Liso. This GRB sample is characterised by a high level of
completeness in redshift (91%). This allows us to probe in an unbiased way the
issue related to the physical origin of these correlations against selection
effects. We find that one burst, GRB 061021, is an outlier to the Ep-Eiso
correlation and another burst, GRB 070328, lies at 3sigma from the Ep-Eiso
correlation. Despite these cases, we find strong Ep-Eiso and Ep-Liso
correlations for the bursts of the complete sample. Their slopes,
normalisations and dispersions are consistent with those found with the whole
sample of bursts with measured redshift and Ep. This means that the biases
present in the total sample commonly used to study these correlations do not
affect their properties. Finally, we also find no evolution with redshift of
the Ep-Eiso and Ep-Liso correlations.
View original:
http://arxiv.org/abs/1112.4470
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