SN 2020kyg and the rates of faint Iax Supernovae from ATLAS

Abstract

We present multi-wavelength follow-up observations of the ATLAS discovered faint Iax supernova SN 2020kyg that peaked at an absolute magnitude of Mg ≈ -14.9 0.2, making it another member of the faint Iax supernova population. The bolometric light curve requires only ≈ 7 × 10-3 M of radioactive 56Ni, with an ejected mass of M ej 0.4 M and a low kinetic energy of E ≈ 0.05 0.02 × 1051 erg. We construct a homogeneous volume-limited sample of 902 transients observed by ATLAS within 100 Mpc during a 3.5 year span. Using this sample, we constrain the rates of faint Iax (Mr -16) events within 60 Mpc at 12+14-8\% of the SN Ia rate. The overall Iax rate, at 15+17-9\% of the Ia rate, is dominated by the low-luminosity events, with luminous SNe Iax (Mr -17.5) like 2002cx and 2005hk accounting for only 0.9+1.1-0.5\% of the Ia rate (a 2σ upper limit of approximately 3\%). We favour the hybrid CONe WD + He star progenitor channel involving a failed deflagration of a near Chandrasekhar mass white dwarf, expected to leave a bound remnant and a surviving secondary companion, as a candidate explanation for faint Iax explosions. This scenario requires short delay times, consistent with the observed environments of SNe Iax. Furthermore, binary population synthesis calculations have suggested rates of 1-18\% of the SN Ia rate for this channel, consistent with our rate estimates.