Dense Gas Tracers and Star Formation Laws in Active Galaxies: APEX Survey of HCN J=4-3, HCO+ J=4-3, and CS J=7-6

Abstract

We report HCN J=4-3, HCO+ J=4-3, and CS J=7-6 observations in 20 nearby star-forming galaxies with the Acatama Pathfinder EXperiment 12-m telescope. Combined with 4 HCN, 3 HCO+, and 4 CS detections in literature, we probe the empirical link between the luminosity of molecular gas (Lgas) and that of infrared emission (LIR), up to the highest gas densities (106 - 108 cm-3) that have been probed so far. For nearby galaxies with large radii, we measure the IR luminosity within the submm beam-size (14"-18") to match the molecular emission. We find linear slopes for LCS76-LIR and LHCN43-LIR, and a slightly super-linear slope for LHCO+43-LIR. The correlation of LCS76-LIR even extends over eight orders of luminosity magnitude down to Galactic dense cores, with a fit of log(LIR)=1.00( 0.01) × log(LCS76) + 4.03( 0.04). Such linear correlations appear to hold for all densities >104 cm-3, and indicate that star formation rate is not related to free-fall time scale for dense molecular gas.