Z. G. Dai and K. S. Cheng 2001 ApJ 558 L109 doi:10.1086/323566
Z. G. Dai1 and K. S. Cheng2
Show affiliationsWe derive light curves of the afterglow emission from highly collimated jets if the power-law index (p) of the electron energy distribution is above 1 but below 2. We find the following: (1) Below the characteristic synchrotron frequency, the light-curve index depends generally on p. (2) As long as the jet expansion is spherical, the light-curve index above the characteristic frequency increases slowly as the spectral index of the emission increases. (3) Once the jet enters the spreading phase, the high-frequency emission flux decays as proportional to t-(p+6)/4 rather than proportional to t-p. All these results differ from those in the case of p > 2. We compare our analytical results with the observations on the GRB 010222 afterglow and conclude that the jet model may be unable to explain the observed data. Thus, a more promising explanation for this afterglow seems to be the expansion of a relativistic fireball or a mildly collimated jet in a dense medium.
Issue 2 (2001 September 10)
Received 2001 May 3, accepted for publication 2001 July 30
Published 2001 August 10
Z. G. Dai and K. S. Cheng 2001 ApJ 558 L109
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