On the density regime probed by HCN emission
Abstract
HCN J\, =\,1\, -\,0 emission is commonly used as a dense gas tracer, thought to mainly arise from gas with densities 104\ -\ 105\ cm-3. This has made it a popular tracer in star formation studies. However, there is increasing evidence from observational surveys of `resolved' molecular clouds that HCN can trace more diffuse gas. We investigate the relationship between gas density and HCN emission through post-processing of high resolution magnetohydrodynamical simulations of cloud-cloud collisions. We find that HCN emission traces gas with a mean volumetric density of 3 × 103\ cm-3 and a median visual extinction of 5\ mag. We therefore predict a characteristic density that is an order of magnitude less than the "standard" characteristic density of n 3 × 104\ cm-3. Indeed, we find in some cases that there is clear HCN emission from the cloud even though there is no gas denser than this standard critical density. We derive luminosity-to-mass conversion factors for the amount of gas at A V > 8 or at densities n > 2.85 × 103 \: cm-3 or n > 3 × 104 \: cm-3, finding values of α HCN = 6.79, 8.62 and 27.98 \: M ( K \, km \, s-1 \, pc2), respectively. In some cases, the luminosity to mass conversion factor predicted mass in regions where in actuality there contains no mass.
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