Variable H$α$ Emission in the Nebular Spectra of the Low-Luminosity Type Ia SN2018cqj/ATLAS18qtd

Jose L. Prieto, Ping Chen, Subo Dong, S. Bose, A. Gal-Yam, T. W. -S. Holoien, J. A. Kollmeier, M. M. Phillips, B. J. Shappee

Published 2019-09-11Version 1

We present optical photometry and spectroscopy of the Type Ia supernova SN2018cqj/ATLAS18qtd. The supernova exploded in an isolated region at $\sim 65$ kpc from the S0 galaxy IC 550 at $z=0.0165$ ($D\approx 74$ Mpc) and has a redshift consistent with a physical association to this galaxy. Multicolor photometry show that SN2018cqj/ATLAS18qtd is a low-luminosity ($M_{B_{max}}\approx -17.9$ mag), fast-declining Type Ia with color stretch $s_{BV} \approx 0.6$ and $B$-band decline rate $\Delta m_{15}(B) \approx 1.77$ mag. Two nebular-phase spectra obtained as part of the 100IAS survey at +193 and +307 days after peak show the clear detection of a narrow H$\alpha$ line in emission that is resolved in the first spectrum with $\rm FWHM \approx 1200$ km s$^{-1}$ and $L_{H\alpha} \approx 3.8\times 10^{37}$ erg s$^{-1}$. The detection of a resolved H$\alpha$ line with a declining luminosity is broadly consistent with recent models where hydrogen is stripped from the non-degenerate companion in a single-degenerate progenitor system. The amount of hydrogen consistent with the luminosities of the H$\alpha$ line would be $\sim 10^{-3}$ M$_{\odot}$, significantly less than theoretical model predictions in the classical single-degenerate progenitor systems. SN2018cqj/ATLAS18qtd is the second low-luminosity, fast-declining Type Ia SN in the 100IAS survey after SN2018fhw/ASASSN-18tb that shows narrow H$\alpha$ in emission in its nebular-phase spectra.