Unveiling the Diversity of Type IIn Supernovae via Systematic Light Curve Modeling - INSPIRE

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Unveiling the Diversity of Type IIn Supernovae via Systematic Light Curve Modeling

Sep 16, 2024

55 pages

e-Print:

2409.10596 [astro-ph.HE]

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Abstract: (arXiv)

Type IIn supernovae (SNeIIn) are a highly heterogeneous subclass of core-collapse supernovae, spectroscopically characterized by signatures of interaction with a dense circumstellar medium (CSM). Here we systematically model the light curves of 142 archival SNeIIn using MOSFiT (the Modular Open Source Fitter for Transients). We find that the observed and inferred properties of SNIIn are diverse, but there are some trends. The typical SN CSM is dense (

\sim

10

^{-12}

gcm

^{-3}

) with highly diverse CSM geometry, with a median CSM mass of

\sim

1M

_\odot

. The ejecta are typically massive (

\gtrsim10

M

_\odot

), suggesting massive progenitor systems. We find positive correlations between the CSM mass and the rise and fall times of SNeIIn. Furthermore there are positive correlations between the rise time and fall times and the

r

-band luminosity. We estimate the mass-loss rates of our sample (where spectroscopy is available) and find a high median mass-loss rate of

\sim

10

^{-2}

M

_\odot

yr

^{-1}

, with a range between 10

^{-4}

--1M

_\odot

yr

^{-1}

. These mass-loss rates are most similar to the mass loss from great eruptions of luminous blue variables, consistent with the direct progenitor detections in the literature. We also discuss the role that binary interactions may play, concluding that at least some of our SNeIIn may be from massive binary systems. Finally, we estimate a detection rate of 1.6

\times

10

^5

yr

^{-1}

in the upcoming Legacy Survey of Space and Time at the Vera C. Rubin Observatory.

Note:

55 pages, 19 figures, 6 tables

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