The Astrophysical Journal (Jan 2024)

The Early Ultraviolet Light Curves of Type II Supernovae and the Radii of Their Progenitor Stars

  • Ido Irani,
  • Jonathan Morag,
  • Avishay Gal-Yam,
  • Eli Waxman,
  • Steve Schulze,
  • Jesper Sollerman,
  • K-Ryan Hinds,
  • Daniel A. Perley,
  • Ping Chen,
  • Nora L. Strotjohann,
  • Ofer Yaron,
  • Erez A. Zimmerman,
  • Rachel Bruch,
  • Eran O. Ofek,
  • Maayane T. Soumagnac,
  • Yi Yang,
  • Steven L. Groom,
  • Frank J. Masci,
  • Marie Aubert,
  • Reed Riddle,
  • Eric C. Bellm,
  • David Hale

DOI
https://doi.org/10.3847/1538-4357/ad3de8
Journal volume & issue
Vol. 970, no. 1
p. 96

Abstract

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We present a sample of 34 normal Type II supernovae (SNe II) detected with the Zwicky Transient Facility, with multiband UV light curves starting at t ≤ 4 days after explosion, and X-ray observations. We characterize the early UV-optical color, provide empirical host-extinction corrections, and show that the t > 2 day UV-optical colors and the blackbody evolution of the sample are consistent with shock cooling (SC) regardless of the presence of “flash ionization” features. We present a framework for fitting SC models that can reproduce the parameters of a set of multigroup simulations up to 20% in radius and velocity. Observations of 15 SNe II are well fit by models with breakout radii 10 ^14 cm breakout radius. However, these fits predict an early rise during the first day that is too slow. We suggest that these large-breakout events are explosions of stars with an inflated envelope or with confined circumstellar material (CSM). Using the X-ray data, we derive constraints on the extended (∼10 ^15 cm) CSM density independent of spectral modeling and find that most SN II progenitors lose $\dot{M}\lt {10}^{-4}{M}_{\odot }\,{\mathrm{yr}}^{-1}$ up to a few years before explosion. We show that the overall observed breakout radius distribution is skewed to higher radii due to a luminosity bias. We argue that the ${66}_{-22}^{+11} \% $ of red supergiants (RSGs) explode as SNe II with breakout radii consistent with the observed distribution of RSGs, with a tail extending to large radii, likely due to the presence of CSM.

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