Formaldehyde as a Tracer of Extragalactic Molecular Gas I. Para-H2CO Emission From M 82

Abstract

Using the IRAM 30-m telescope and the 15-m JCMT, we explore the value of para-formaldehyde (p-H2CO) as a tracer of density and temperature of the molecular gas in external galaxies. The target of our observations are the lobes of the molecular ring around the center of the nearby prototypical starburst galaxy M 82. It is shown that p-H2CO provides one of the rare direct molecular thermometers. Reproducing the measured line intensities with a large velocity gradient (LVG) model, we find densities of nH2 ~ 7 103 cm-3 and kinetic temperatures of Tkin ~ 200 K. The derived kinetic temperature is significantly higher than the dust temperature or the temperature deduced from ammonia (NH3) lines, but our results agree well with the properties of the high-excitation component seen in CO. We also present the serendipitous discovery of the 42 - 31 line of methanol (CH3OH) in the northeastern lobe, which shows -- unlike CO and H2CO -- significantly different line intensities in the two lobes.