Early Time Light Curves of 18 Bright Type Ia Supernovae Observed with TESS

2019 
We present early time light curves of 18 Type Ia supernovae observed in the first six sectors of TESS data. Nine of these supernovae were discovered by ASAS-SN, four by ATLAS, four by ZTF, and one by \textit{Gaia}. For eight of these objects with sufficient dynamic range ($>$3.0 mag from detection to peak), we fit power law models and search for signatures of companion stars. Most of our sources are consistent with fireball models where the flux increases $\propto t^2$, while two display a flatter rise with flux $\propto t$. We do not find any obvious evidence for additional structure such as multiple power law components in the early rising light curves. Assuming a favorable viewing angle, we place conservative upper limits on the radii of any companion stars of less than 25 R$_\odot$ for six supernovae and less than 4 R$_\odot$ for 4 supernovae. If such systems are commonplace, the odds of non-detection in this sample are 38\% for companions $\gtrsim$25\,R$\odot$ and 52\% for companions $\gtrsim$4\,R$\odot$. Based on the examples in this work, we expect that TESS will either detect emission from a dwarf companion during its initial two year survey, or place stringent limits on single-degenerate progenitor models.
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