The luminous type Ia supernova 2022ilv and its early excess emission

TL;DR

This paper analyzes the luminous type Ia supernova 2022ilv, revealing early excess emission likely caused by ejecta interacting with circumstellar material, and suggests it belongs to the super-Chandrasekhar class often linked to low-metallicity environments.

Contribution

It provides detailed observations and modeling of SN 2022ilv, identifying early excess emission and proposing a double-degenerate progenitor scenario with circumstellar interaction.

Findings

Early excess emission consistent with ejecta-CSM interaction

Large nickel and ejecta mass estimates for the supernova

No host galaxy detected, indicating low-metallicity environment

Abstract

We present observations and analysis of the host-less and luminous type Ia supernova 2022ilv, illustrating it is part of the 2003fg-like family, often referred to as super-Chandrasekhar (Ia-SC) explosions. The ATLAS light curve shows evidence of a short-lived, pulse-like early excess, similar to that detected in another luminous type Ia supernova (SN 2020hvf). The light curve is broad and the early spectra are remarkably similar to SN 2009dc. Adopting a redshift of $z=0.026 \pm 0.005$ for SN 2022ilv based on spectral matching, our model light curve requires a large $^{56}$Ni mass in the range $0.7-1.5$ M$_{\odot}$, and a large ejecta mass in the range $1.6-2.3$ M$_{\odot}$. The early excess can be explained by fast-moving SN ejecta interacting with a thin, dense shell of circumstellar material close to the progenitor ($\sim 10^{13}$ cm), a few hours after the explosion. This may be realised in a double-degenerate scenario, wherein a white dwarf merger is preceded by ejection of a small amount ($\sim 10^{-3}-10^{-2}$ M$_{\odot}$) of hydrogen and helium-poor tidally stripped material. A deep pre-explosion Pan-STARRS1 stack indicates no host galaxy to a limiting magnitude of $r \sim 24.5$. This implies a surprisingly faint limit for any host of $M_r \gtrsim -11$, providing further evidence that these types of explosion occur predominantly in low-metallicity environments.