Astronomy and Astrophysics – Astrophysics
Scientific paper
1999-10-27
ApJ, 543(2000), 90-96
Astronomy and Astrophysics
Astrophysics
24 pages, submitted to ApJ, Eq.(26) (28) revised according to the referee's report, Fig. 8 redrawn, references updated and som
Scientific paper
10.1086/317076
Whether gamma-ray bursts are highly beamed or not is a very difficult but important problem that we are confronted with. Some theorists suggest that beaming effect usually leads to a sharp break in the afterglow light curve during the ultra-relativistic phase, with the breaking point determined by $\gamma = 1 / \theta_0$, where $\gamma$ is the Lorentz factor of the blastwave and $\theta_0$ is the initial half opening angle of the ejecta, but numerical studies tend to reject the suggestion. We note that previous studies are uniformly based on dynamics that is not proper for non-relativistic blastwaves. Here we investigate the problem in more detail, paying special attention to the transition from the ultra-relativistic phase to the non-relativistic phase. Due to some crucial refinements in the dynamics, we can follow the overall evolution of a realistic jet till its velocity is as small as $\beta c \sim 10^{-3} c$. We find no obvious break in the optical light curve during the relativistic phase itself. However, an obvious break does appear at the transition from the relativistic phase to the Newtonian phase if the physical parameters involved are properly assumed. Generally speaking, the Newtonian phase is characterized by a sharp decay of optical afterglows, with the power law timing index $\alpha \sim 1.8$ - 2.1. This is due to the quick lateral expansion at this stage. The quick decay of optical afterglows from GRB 970228, 980326, and 980519, and the breaks in the optical light curves of GRB 990123 and 990510 may indicate the presence of highly collimated $\gamma$-ray burst ejecta.
Dai Gao Z.
Gou Li-Jun
Huang Yun-Feng
Lu Tan
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