Gamma-Ray Burst Spectrum with Decaying Magnetic Field

TitleGamma-Ray Burst Spectrum with Decaying Magnetic Field
Publication TypeJournal Article
Year of Publication2014
AuthorsZhao, X, Li, Z, Liu, X, Zhang, B-b., Bai, J, Mészáros, P
Keywordsgamma-ray burst: general, magnetic fields, radiation mechanisms: non-thermal

{In the internal shock model for gamma-ray bursts (GRBs), the synchrotron spectrum from the fast cooling electrons in a homogeneous downstream magnetic field (MF) is too soft to produce the low-energy slope of GRB spectra. However, the MF may decay downstream with distance from the shock front. Here we show that the synchrotron spectrum becomes harder if electrons undergo synchrotron and inverse-Compton cooling in a decaying MF. To reconcile this with the typical GRB spectrum with low-energy slope {$ν$}F $_{ν}$vprop{$ν$}, the postshock MF decay time must be comparable to the cooling time of the bulk electrons (corresponding to a MF decaying length typically of \~{}10⁵ skin depths); that the inverse-Compton cooling should dominate synchrotron cooling after the MF decay time; and/or that the MF decays with comoving time roughly as Bvpropt $^{-1.5}$. An internal shock synchrotron model with a decaying MF can account for the majority of GRBs with low-energy slopes not harder than {$ν$}$^{4/3}$. }