Trans-Relativistic Blast Waves in Supernovae as Gamma-Ray Burst Progenitors

Details Trans-Relativistic Blast Waves in Supernovae as Gamma-Ray Burst Progenitors Trans-Relativistic Blast Waves in Supernovae as Gamma-Ray Burst Progenitors

Dec 2000

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000aas...19713605t&link_type=abstract

American Astronomical Society, 197th AAS Meeting, #136.05; Bulletin of the American Astronomical Society, Vol. 33, p.724

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We investigate the acceleration of shock waves to relativistic velocities in the outer layers of exploding stars. By concentrating the energy of the explosion in the outermost ejecta, such trans-relativistic blast waves can serve as the progenitors of gamma-ray bursts (GRBs); in particular, the ``baryon-loading'' problem that plagues many models of GRBs is circumvented. Postshock acceleration, often neglected in previous models, is effective in boosting the kinetic energy in relativistic ejecta. We present physically motivated analytic expressions to describe trans-relativistic blast waves in supernovae, and we validate these expressions against numerical simulations of test problems. Investigating the effect of stellar structure on mass ejection, we find that relativistic ejecta are enhanced in more centrally condensed envelopes---e.g., for radiative envelopes, when the luminosity approaches the Eddington limit. Convenient formulae are presented with which to estimate the production of relativistic ejecta from a given progenitor. We apply our analytic and numerical methods to a model of SN 1998bw, finding significantly enhanced relativistic ejecta compared to previous studies. We propose that GRB 980425 is associated with SN 1998bw and resulted from a spherical, or nearly spherical, explosion producing ~ 10-6 Msun of mildly relativistic ejecta with mean Lorentz factor \bar Γ ~ 2, which then interacted with a dense circumstellar wind with mass loss rate ~fewx 10-4Msun yr-1. A simple, yet uncertain, model of much more extreme, ``hypernova'' explosions in massive stars, is able to account for the energetics and relativistic ejecta velocities required by many of the observed cosmological GRBs. However, the most energetic bursts require asymmetric expulsion of ejecta, perhaps caused by rotationally flattened progenitors. We present simplified models and simulations of explosions resulting from accretion-induced collapse of white dwarfs and phase transitions of neutron stars. While we find increased energies in relativistic ejecta compared to previous studies, these explosions are unlikely to be observed at cosmological distances, unless extreme explosion energies and asymmetries are invoked.

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