# Molecular gas at supernova local environments unveiled by EDGE

**Authors:** L. Galbany, L. Mora, S. Gonz\'alez-Gait\'an, A. Bolatto, H., Dannerbauer, \'A. R. L\'opez-S\'anchez, K. Maeda, S. P\'erez, M. A., P\'erez-Torres, S. F. S\'anchez, T. Wong, C. Badenes, L. Blitz, R. A. Marino,, D. Utomo, G. Van de Ven

arXiv: 1702.02945 · 2018-02-20

## TL;DR

This study combines millimeter and optical data to analyze the molecular gas environments of different supernova types, revealing that Type Ibc supernovae are more closely associated with star-forming regions than Type II.

## Contribution

It provides new insights into the molecular gas environments of supernovae by combining EDGE CO maps with CALIFA optical spectroscopy, highlighting differences among supernova types.

## Key findings

- SNe Ibc are more associated with star-forming environments than SNe II.
- N(H2) is significantly higher for SNe Ibc than for SNe II and SNe Ia.
- Environmental extinction estimates can differ from SN observations, indicating complex dust effects.

## Abstract

CO observations allow estimations of the gas content of molecular clouds, which trace the reservoir of cold gas fuelling star formation, as well as to determine extinction via H$_2$ column density, N(H$_2$). Here, we studied millimetric and optical properties at 26 supernovae (SNe) locations of different types in a sample of 23 nearby galaxies by combining molecular $^{12}$C$^{16}$O (J = 1 $\rightarrow$ 0) resolved maps from the EDGE survey and optical Integral Field Spectroscopy from the CALIFA survey. We found an even clearer separation between type II and type Ibc SNe in terms of molecular gas than what we found in the optical using H$\alpha$ emission as a proxy for current SF rate, which reinforces the fact that SNe Ibc are more associated with SF-environments. While A$_V$ at SN locations is similar for SNe II and SNe Ibc, and higher compared to SNe Ia, N(H$_2$) is significantly higher for SNe Ibc than for SNe II and SNe Ia. When compared to alternative extinction estimations directly from SN photometry and spectroscopy, we find that our SNe Ibc have also redder color excess but showed standard Na I D absorption pseudo-equivalent widths ($\sim$1 \AA). In some cases we find no extinction when estimated from the environment, but high amounts of extinction when measured from SN observations, which suggests that circumstellar material or dust sublimation may be playing a role. This work serves as a benchmark for future studies combining last generation millimeter and optical IFS instruments to reveal the local environmental properties of extragalactic SNe.

## Full text

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## Figures

45 figures with captions in the complete paper: https://tomesphere.com/paper/1702.02945/full.md

## References

107 references — full list in the complete paper: https://tomesphere.com/paper/1702.02945/full.md

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Source: https://tomesphere.com/paper/1702.02945