Constraining the initial Lorentz factor of gamma-ray bursts under different circumburst mediums
Abstract
The initial Lorentz factor (0) plays a crucial role in uncovering the physical characteristics of gamma-ray bursts (GRBs). Previous studies have indicated that the ambient medium density index k for GRBs falls in the range of 0 - 2, rather than exactly equal to 0 (homogeneous interstellar ambient) or 2 (typical stellar wind). In this work, we aim to constrain the 0 of GRBs considering their distinct circumburst medium. We select a total of 33 GRBs for our analysis, comprising 7 X-ray GRBs and 26 optical GRBs. Subsequently, by utilizing the deceleration time of fireball t p, we derive the 0 for the 33 GRBs assuming the radiation efficiency of η = 0.2. The inferred initial Lorentz factor was found to be from 50 to 500, consistent with previous studies. We then investigate the correlation between the 0 and the isotropic energy E γ,iso (as well as the mean isotropic luminosity L γ,iso), finding very tight correlations between them, i.e., 0 E0.24 γ,iso,52 (0 L0.20 γ,iso.49) with η=0.2. Additionally, we verify the correlation among 0, the isotropic energy E γ,iso (or L γ,iso) and the peak energy Ep,z, i.e., E γ,iso,52 1.360E0.82p,z (L γ,iso,49 1.050E0.66p,z) under the same radiation efficiency (η=0.2).
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