Comparing the Locations of Supernovae to CO (2-1) Emission in their Host Galaxies

Abstract

We measure the molecular gas environment near recent (< 100 yr old) supernovae (SNe) using 1'' or ≤ 150pc resolution CO (2-1) maps from the PHANGS-ALMA survey of nearby star-forming galaxies. This is arguably the first such study to approach the scales of individual massive molecular clouds (M mol 105.3 M). Using the Open Supernova Catalog (OSC), we identify 63 SNe within the PHANGS-ALMA footprint. We detect CO (2-1) emission near 60\% of the sample at 150pc resolution, compared to 35\% of map pixels with CO (2-1) emission, and up to 95\% of the SNe at 1kpc resolution compared to 80\% of map pixels with CO (2-1) emission. We expect the 60\% of SNe within the same 150pc beam as a GMC will likely interact with these clouds in the future, consistent with the observation of widespread SN-molecular gas interaction in the Milky Way, while the other 40\% of SNe without strong CO (2-1) detections will deposit their energy in the diffuse interstellar medium (ISM), perhaps helping drive large-scale turbulence or galactic outflows. Broken down by type, we detect CO (2-1) emission at the sites of 85\% of our 9 stripped-envelope SNe (SESNe), 40\% of our 34 Type II SNe, and 35\% of our 13 Type Ia SNe, indicating that SESNe are most closely associated with the brightest CO (2-1) emitting regions in our sample. Our results confirm that SN explosions are not restricted to only the densest gas, and instead exert feedback across a wide range of molecular gas densities.

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