http://arxiv.org/abs/1807.11526
On 2018 Feb. 4.41, the All-Sky Automated Survey for SuperNovae (ASAS-SN) discovered ASASSN-18bt in the K2 Campaign 16 field. With a redshift of $z=0.010981$ and a peak apparent magnitude of $B_{max}=14.31$, ASASSN-18bt is the nearest and brightest SNe Ia yet observed by the Kepler spacecraft. Here we present the discovery of ASASSN-18bt, the K2 light curve, and pre-discovery data from ASAS-SN and the Asteroid Terrestrial-impact Last Alert System (ATLAS). The K2 early-time light curve has an unprecedented cadence and photometric precision for an SN Ia light curve, and it unambiguously shows a 4 day nearly linear phase followed by a steeper rise. Thus, ASASSN-18bt joins a growing list of SNe Ia whose early light curves are not well described by a single power law. We show that a double-power-law model fits the data reasonably well, hinting that two physical processes must be responsible for the observed rise. However, we find that current models of the interaction with a non-degenerate companion predict an abrupt rise and cannot adequately explain the initial, slower linear phase. Instead, we find that existing, published models with shallow $^{56}$Ni are able to span the observed behavior and, with tuning, may be able to reproduce the ASASSN-18bt light curve. Regardless, more theoretical work is needed to satisfactorily model this and other early-time SNe~Ia light curves. Finally, we use Swift X-ray non-detections to constrain the presence of CSM at much larger distances and lower densities than possible with the optical light curve. Assuming a wind-like environment, the observed X-ray limit corresponds to a mass-loss limit of $\dot M<\rm{8 \times 10^{-6}}\,\rm{M_{\odot}yr^{-1}}$ for $v_\textrm{w}=100\,\rm{km\,s^{-1}}$, ruling out some symbiotic progenitor systems.
B. Shappee, T. Holoien, M. Drout, et. al.
Wed, 1 Aug 18
45/65
Comments: 18 pages, 8 figures, 3 Tables. Submitted to ApJ
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