Nearby SN-Associated GRB~190829A: Environment, Jet Structure, and VHE Gamma-Ray Afterglows
Abstract
We present a self-consistent paradigm for interpreting the striking features of nearby low-luminosity GRB~190829A. Its prompt gamma-ray lightcurve has two separated pulses. We propose that the interaction of the hard prompt gamma-ray photons (Ep= 624-303+2432 keV) of its initial pulse with the dusty medium (A V=2.33) does not only result in the second soft gamma-ray pulse (Ep 12 keV), but also makes a pre-accelerated e-rich medium shell via the γγ annihilation.In this paradigm, we show that the observed radio, optical, and X-ray afterglow lightcurves are well fit with the forward shock model. Its jet is almost isotropic (θj>1.0 rad) with a Lorentz factor of 35, and the electron density of the e-rich medium shell is 15 cm-3, about 7~times higher than the electron density of its normal surrounding medium. The GRB ejecta catches up with and propagates into the e-rich medium shell at a region of R=(4.07-6.46)× 1016~ cm, resulting in a bright afterglow bump at 103 seconds post the GRB trigger. The predicted very high energy (VHE) gamma-ray emission from the synchrotron self-Compton process agrees with the H.E.S.S. observation. The derived broadband spectral energy distribution shows that GRB~190829A like nearby GRBs would be promising targets of the VHE gamma-ray telescopes, such as H.E.S.S., MAGIC, and CTA (Cherenkov Telescope Arrays).
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