Interaction of a Supernova Shock with the other Star in a Binary System

Abstract

Interaction of a fast shock wave generated during a supernova explosion with a magnetized star-companion of the supernova precursor produces a current sheet. We consider the evolution of this current sheet and show that a singularity (shock) is formed in finite time within the ideal MHD framework. Charged particles (electrons) are accelerated in the vicinity of the singularity, and their distribution function has a plateau up to the energies of the order of 104 mc2. These fast particles radiate in the γ-range in the strong magnetic field of the current sheet (B 106 G). Radiation is concentrated within a narrow angle around the current sheet, θ 3· 10-4, and its spectrum has the maximum at several hundreds of keV. Presented calculations confirm the model of cosmological GRBs proposed by Istomin & Komberg (2002).