How Much Can 56Ni Be Synthesized by Magnetar Model for Long Gamma-ray Bursts and Hypernovae?
Abstract
A rapidly rotating neutron star with strong magnetic fields, called magnetar, is a possible candidate for the central engine of long gamma-ray bursts and hypernovae (HNe). We solve the evolution of a shock wave driven by the wind from magnetar and evaluate the temperature evolution, by which we estimate the amount of 56Ni that produces a bright emission of HNe. We obtain a constraint on the magnetar parameters, namely the poloidal magnetic field strength (Bp) and initial angular velocity (i), for synthesizing enough 56Ni mass to explain HNe (M56Ni 0.2M), i.e. (Bp/1016~G)1/2(i/104~rad~s-1) 0.7.
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