Type IIn Supernovae. I. Uniform Light Curve Characterization and a Bimodality in the Radiated Energy Distribution

TL;DR

This study analyzes 487 Type IIn supernovae light curves, revealing a bimodal distribution in radiated energy and identifying distinct groups likely linked to different progenitor scenarios.

Contribution

It provides the largest uniform dataset of SNe IIn light curves and uncovers a bimodal energy distribution, challenging existing classifications and suggesting multiple progenitor pathways.

Findings

Bimodal radiated energy distribution with peaks at ~10^49 and ~2x10^50 erg.

Two main groups: faint-fast and luminous-slow supernovae.

No clear transition at the -20 mag cutoff for superluminous classification.

Abstract

We present the largest uniform study to date of Type IIn supernovae (SNe IIn), focusing in this first paper on the multi-band optical light curves of $487$ SNe IIn. The sample, constructed from multiple surveys, extends to $z \approx 0.8$, with the majority of events at $z \lesssim 0.3$. We construct uniform multi-band and bolometric light curves using Gaussian process regression, and determine key observed properties in the rest-frame (e.g., peak luminosity, timescales, radiated energy). We find that SNe IIn span broad ranges in peak luminosity ($\sim 10^{42}-10^{44}$ erg s$^{-1}$) and timescales ($\sim 20-300$ days above 50% of peak luminosity), but the sample divides into two clear groups in the luminosity-timescale phase-space around the median peak luminosity ($\approx 10^{43}$ erg s$^{-1}$): faint-fast and luminous-slow groups. This leads to a strong bimodality in the radiated energy distribution, with peaks at $\sim 10^{49}$ and $\sim 2\times10^{50}$ erg, with the latter events having a characteristic timescale of $\sim 100$ days, and the former appearing to bifurcate into two branches with timescales of $\sim 40$ and $\sim 70$ days. Therefore, SNe IIn exhibit at least two dominant groupings, and perhaps three, which are likely reflective of different progenitor and/or circumstellar medium formation pathways. We do not find any obvious transition in SN IIn properties at the arbitrary cut-off of $\approx -20$ mag used for the designation "Type II Superluminous Supernovae", and we argue that this classification should be abandoned. The absence of SNe IIn with timescales of $\lesssim 14$ days defines the region occupied by fast transients with evidence for interaction with hydrogen-poor circumstellar medium.