Key points are not available for this paper at this time.
The correlation between the cosmological rest-frame nuFnu spectrum peak energy, Ep, i, and the isotropic equivalent radiated energy, Eiso, discovered by Amati et al. in 2002 and confirmed/extended by subsequent osbervations, is one of the most intriguing and debated observational evidences in Gamma-Ray Bursts (GRB) astrophysics. In this paper I provide an update and a re-analysis of the Ep, i - Eiso correlation basing on an updated sample consisting of 41 long GRBs/XRFs with firm estimates of z and observed peak energy, Ep, obs, 12 GRBs with uncertain valeus of z and/or Ep, obs, 2 short GRBs with firm estimates of z and Ep, obs and the peculiar sub-energetic events GRB980425/SN1998bw and GRB031203/SN2003lw. In addition to standard correlation analysis and power-law fitting, the data analysis here reported includes a modelization which accounts for sample variance. All 53 classical long GRBs and XRFs, including 11 Swift events with published spectral parameters and fluences, have Ep, i and Eiso values, or upper/lower limits, consistent with the correlation, which shows a chance probability as low as ~7x10-15, a slope of ~0. 57 (~0. 5 when fitting by accounting for sample variance) and an extra-Poissonian logarithmic dispersion of ~0. 15, it extends over ~5 orders of magnitude in Eiso and ~3 orders of magnitude in Ep, i and holds from the closer to the higher z GRBs. I also discuss the main implications of the updated Ep, i - Eiso correlation for the models of the physics and geometry of GRB emission, its use for discriminating different classes and as a pseudo-z estimator, and the tests of possible selection effects with GRBs of unknown redshift.
L. Amati (Wed,) studied this question.