Shock cooling emission from explosions of massive stars: III. Blue Super Giants
Abstract
Light emission in the first hours and days following core-collapse supernovae is dominated by the escape of photons from the expanding shock-heated envelope. In preceding papers, we provided a simple analytic description of the time-dependent luminosity, L, and color temperature, T col, as well as of the small (10\%) deviations of the spectrum from blackbody at low frequencies, h< 3T col, and of `line dampening' at h> 3T col, for explosions of red supergiants (RSGs) with convective polytropic envelopes (without significant circum-stellar medium). Here, we extend our work to provide similar analytic formulae for explosions of blue supergiants with radiative polytropic envelopes. The analytic formulae are calibrated against a large set of spherically symmetric multi-group (frequency-dependent) calculations for a wide range of progenitor parameters (mass, radius, core/envelope mass ratios) and explosion energies. In these calculations we use the opacity tables we constructed (and made publicly available), that include the contributions of bound-bound and bound-free transitions. They reproduce the numeric L and T col to within 10\% and 5\% accuracy, and the spectral energy distribution to within 20-40\%. The accuracy is similar to that achieved for RSG explosions.
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