Compton cooling in the afterglow of gamma-ray bursts: application to grb 980923 and grb 971214
May, 2001Citations per year
Abstract: (arXiv)
The role of Compton cooling in the standard model for the afterglows of gamma-ray bursts is considered. When electrons cool by scattering off their own synchrotron photons, three cooling regimes are identified in which the observed synchrotron radiation exhibits qualitatively different characteristics. Depending on the values of the source parameters, an afterglow may evolve through one, two or all three of these regimes. Since synchrotron radiation can be regarded as Compton scattering of the virtual photons due to the magnetic field, in one of these regimes the instantaneous synchrotron spectrum has properties identical to those when Compton cooling is negligible. During this phase in the evolution, the synchrotron radiation falls mainly in the near infrared/optical/UV spectral range. It is argued that the observed afterglows of GRB 980923 and GRB 971214 are outside this degenerate phase. The derived values of the source parameters show Compton cooling to have been important in both of these afterglows.References(27)
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