ALMA Sub-arcsec-resolution 183 GHz H2O and Dense Molecular Line Observations of Nearby Ultraluminous Infrared Galaxies

Abstract

We present the results of ALMA 2 mm, 1''-resolution observations of ten (ultra)luminous infrared galaxies ([U]LIRGs; infrared luminosity 1011.7L) at z < 0.15, targeting dense (>104 cm-3) molecular (HCN, HCO+, and HNC J=2-1) and 183 GHz H2O 31,3-22,0 emission lines. Higher HCN to HCO+ J=2-1 flux ratios are observed in some, but not all, AGN-important ULIRGs than in starburst-classified sources. We detect 183 GHz H2O emission in almost all AGN-important ULIRGs, and elevated H2O emission is found in two sources with elevated HCN J=2-1 emission, relative to HCO+ J=2-1. Except one ULIRG (the Superantennae), the H2O emission largely comes from the entire nuclear regions (1 kpc), rather than AGN-origin megamaser at the very center (<<1 kpc). Nuclear (1 kpc) dense molecular gas mass derived from HCO+ J=2-1 luminosity is few × 108M, and its depletion time is estimated to be 106 yr in all sources. Vibrationally excited J=2-1 emission lines of HCN and HNC are detected in a few (U)LIRGs, but those of HCO+ are not. It is suggested that in mid-infrared-radiation-exposed innermost regions around energy sources, HCO+ and HNC are substantially less abundant than HCN. In our ALMA 2 mm data of ten (U)LIRGs, two continuum sources are serendipitously detected within 10'', which are likely to be an infrared luminous dusty galaxy at z > 1 and a blazar.