On the Collapsar Model of Long Gamma-Ray Bursts: Constraints from Cosmic Metallicity Evolution

Abstract

We explore the consequences of new observational and theoretical evidence that long gamma-ray bursts prefer low metallicity environments. Using recently derived mass-metallicity correlations and the mass function from SDSS studies, and adopting an average cosmic metallicity evolution from kewley2005 and savaglio2005 we derive expressions for the the relative number of massive stars formed below a given fraction of solar metallicity, ε, as function of redshift. We demonstrate that about 1/10th of all stars form with ε < 0.1. Therefore, a picture where the majority of GRBs form with ε < 0.1 is not inconsistent with an empirical global SN/GRB ratio of 1/1000. It implies that (1) GRB's peak at a significantly higher redshift than supernovae; (2) massive star evolution at low metallicity may be qualitatively different and; (3) the larger the low-metallicity bias of GRBs the less likely binary evolution channels can be significant GRB producers.

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