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The second brightest gamma-ray burst, GRB 230307A (with a duration T₉₀ ~ 40 s), exhibited characteristics indicative of a magnetar engine during the prompt emission phase. Notably, a suspected kilonova was identified in its follow-up optical and infrared observations. Here we propose that the origin of GRB 230307A is a neutron star-white dwarf (NS-WD) merger, as this could naturally interpret the long duration and the large physical offset from the center of its host galaxy. In the framework of such a NS-WD merger event, the late-time kilonova-like emission is very likely to be powered by the spin-down of the magnetar and the radioactive decay of ^56Ni, rather than by the decay of r-process elements as these heavy elements may not be easy to be synthesized in a NS-WD merger. It is demonstrated that the above scenario can be supported by our fit to the late-time observational data, where a mass of ~ 10^-3 \ M_ ^56Ni is involved in the ejecta of a mass of ~ 0. 1 \ M_. Particularly, the magnetar parameters required by the fit are consistent with those derived from the early X-ray observation.
Wang et al. (Sat,) studied this question.
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