Rings in Fireball Afterglows

Abstract

We derive the equation for the surface of equal arrival times of radiation from a thin relativistic shell interacting with an external medium, representing the afterglow of a gamma-ray burst produced by a fireball. Due to the deceleration, these surfaces become distorted ellipsoids and, at sufficiently late times, most of the light (either bolometric or in a given band) comes from a ring-like region whose width depends only on age. We analyze the shape of these surfaces and the radiation received from different angles for different dynamic and radiative regimes and homogeneous or power-law external densities. We calculate angle-integrated bolometric and fixed frequency fluxes, and we tabulate the most relevant parameters that describe the equal arrival time surfaces and the source brightness distribution, quantities that are useful for more accurate analytic estimates of the afterglow evolution.

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