Publication Date:
2017-01-04
Description:
High critical density molecular lines like HCN (1-0) or HCO + (1-0) represent our best tool to study currently star-forming, dense molecular gas at extragalactic distances. The optical depth of these lines is a key ingredient to estimate the effective density required to excite emission. However, constraints on this quantity are even scarcer in the literature than measurements of the high-density tracers themselves. Here, we combine new observations of HCN, HCO + and HNC (1-0) and their optically thin isotopologues H 13 CN, H 13 CO + and HN 13 C (1-0) to measure isotopologue line ratios. We use IRAM 30-m observations from the large programme EMPIRE and new Atacama Large Millimetre/submillimetre Array observations, which together target six nearby star-forming galaxies. Using spectral stacking techniques, we calculate or place strong upper limits on the HCN/H 13 CN, HCO + /H 13 CO + and HNC/HN 13 C line ratios in the inner parts of these galaxies. Under simple assumptions, we use these to estimate the optical depths of HCN (1-0) and HCO + (1-0) to be ~ 2–11 in the active, inner regions of our targets. The critical densities are consequently lowered to values between 5 and 20 x 10 5 cm –3 , 1 and 3 x 10 5 cm –3 and 9 x 10 4 cm –3 for HCN, HCO + and HNC, respectively. We study the impact of having different beam-filling factors, , on these estimates and find that the effective critical densities decrease by a factor of $\frac{\eta _{12}}{\eta _{13}}\,\tau _{12}$ . A comparison to existing work in NGC 5194 and NGC 253 shows the HCN/H 13 CN and HCO + /H 13 CO + ratios in agreement with our measurements within the uncertainties. The same is true for studies in other environments such as the Galactic Centre or nuclear regions of active galactic nucleus dominated nearby galaxies.
Print ISSN:
0035-8711
Electronic ISSN:
1365-2966
Topics:
Physics
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