http://arxiv.org/abs/1603.06926
The recent discovery of the unprecedentedly superluminous transient ASASSN-15lh (or SN 2015L) challenges all the power-input models that have been proposed for superluminous supernovae. Here we examine some of the few viable interpretations of ASASSN-15lh in the context of a stellar explosion, involving combinations of one or more power inputs. We model the lightcurve of ASASSN-15lh with a hybrid model that includes contributions from magnetar spin-down energy and hydrogen-poor circumstellar interaction. We also investigate models of pure circumstellar interaction with a massive hydrogen-deficient shell and discuss about the lack of interaction features in the observed spectra. We find that ASASSN-15lh can be best modeled by the energetic core-collapse of a ~40 Msun supernova interacting with a hydrogen-poor shell of ~20 Msun. The circumstellar shell and progenitor mass are consistent with a rapidly rotating pulsational pair-instability supernova progenitor as required for strong interaction following the final supernova explosion. Additional energy injection by a magnetar with initial period of 1-2 ms and magnetic field of (0.1-1) x 10^14 G can supply the excess luminosity required to overcome the deficit in single-component models. Hybrid circumstellar interaction magnetar spin-down models can also account for the late-time UV-bright plateau phase observed in ASASSN-15lh while single-input models fail to account for this feature.
E. Chatzopoulos, J. Wheeler, J. Vinko, et. al.
Wed, 23 Mar 16
23/73
Comments: 8 pages, 4 figures
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