Gamma-Ray Burst Jet Profiles And Their Signatures
Abstract
HETE-II and BeppoSAX have produced a sample of GRBs and XRFs with known redshifts and Epk. This sample provides four important empirical constraints on the nature of the source jets: Log Eiso is approximately uniformly distributed over several orders of magnitude; the inferred prompt energy Log Eγ is narrowly distributed; the Amati relation holds between Eiso and Epk; and the Ghirlanda relation holds between Eγ and Epk. We explore the implications of these constraints for GRB jet structure during the prompt emission phase. We infer the underlying angular profiles from the first two of the above constraints assuming all jets have the same profile and total energy, and show that such ``universal jet'' models cannot satisfy both constraints. We introduce a general and efficient method for calculating relativistic emission distributions and Epk distributions from jets with arbitrary (smooth) angular jet profiles. We also exhibit explicit analytical formulas for emission from top-hat jets (which are not smooth). We use these methods to exhibit Epk and Eiso as a function of viewing angle, for several interesting families of GRB jet profiles. We use the same methods to calculate expected frequency distributions of Eiso and Eγ for the same families of models. We then proceed to explore the behavior of universal jet models under a range of profile shapes and parameters, to map the extent to which these models can conform to the above four empirical constraints.
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