SN 2020sck: deflagration in a carbon-oxygen white dwarf

Abstract

We present optical UBVRI photometry and low-to-medium resolution spectroscopic observations of type Iax SN 2020sck spanning -5.5 d to +67 d from maximum light in the B-band. From the photometric analysis we find mB(15) = 2.030.05 mag and MB=-17.810.22 mag. Radiation diffusion model fit to the quasi-bolometric light curve indicates 0.130.02 M of 56Ni and 0.34 M of ejecta are synthesized in the explosion. Comparing the observed quasi-bolometric light curve with angle-averaged bolometric light curve of three-dimensional pure deflagration explosion of Mch carbon-oxygen white dwarf, we find agreement with a model in which 0.16 M of 56Ni and 0.37 M of ejecta is formed. By comparing the +1.4 day spectrum of SN 2020sck with synthetic spectrum generated using SYN++, we find absorption features due to C II, C III and O I. These are unburned materials in the explosion and indicate a C-O white dwarf. One dimensional radiative transfer modeling of the spectra with TARDIS shows higher density in the ejecta near the photosphere and a steep decrease in the outer layers with an ejecta composition dominated mostly by C, O, Si, Fe, and Ni. The star formation rate of the host galaxy computed from the luminosity of the Hα (λ6563) line is 0.09 M yr-1 indicating a relatively young stellar environment.