Wind-reprocessed Transients

Creators: Piro, Anthony L.; Lu, Wenbin

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Abstract

We consider the situation where the luminosity from a transient event is reprocessed by an optically thick wind. Potential applications are the tidal disruption of stars by black holes (BHs), engine-powered supernovae, and unique fast transients found by current and future wide-field surveys. We derive relations between the injected and observed luminosity for steady and time-dependent winds, and discuss how the temperature is set for scattering-dominated radiative transport. We apply this framework to specific examples of tidal disruption events and the formation of a BH by a massive star, as well as discuss other applications such as deriving observables from detailed hydrodynamic simulations. We conclude by exploring what is inferred about the mass-loss rate and underlying engine powering AT 2018cow if it is explained as a wind-reprocessed transient, demonstrating that its optical emission is consistent with reprocessing of the observed soft X-rays.

Additional Information

© 2020 The American Astronomical Society. Received 2020 January 22; revised 2020 March 25; accepted 2020 March 25; published 2020 April 29. We thank the anonymous referee for a careful reading of our work and helpful feedback. We thank Sterl Phinney and Anna Ho for useful discussions on AT 2018cow. W.L. is supported by the David and Ellen Lee Fellowship at Caltech.

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Published - Piro_2020_ApJ_894_2.pdf

Accepted Version - 2001.08770.pdf

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2001.08770.pdf

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