A CO(3-2) survey of a merging sequence of luminous infrared galaxies

Abstract

Luminous infrared galaxies (LIR>1011 L) are often associated with interacting galactic systems and are thought to be powered by merger--induced starbursts and/or dust--enshrouded AGN. In such systems, the evolution of the dense, star forming molecular gas as a function of merger separation is of particular interest. Here, we present observations of the CO(3-2) emission from a sample of luminous infrared galaxy mergers that span a range of galaxy-galaxy separations. The excitation of the molecular gas is studied by examining the CO(3-2)/CO(1-0) line ratio, r31, as a function of merger extent. We find these line ratios, r31, to be consistent with kinetic temperatures of Tk=(30--50) K and gas densities of nH2=103 cm-3. We also find weak correlations between r31 and both merger progression and star formation efficiency (LfIR / LCO(1-0)). These correlations show a tendency for gas excitation to increase as the merger progresses and the star formation efficiency rises. To conclude, we calculate the contributions of the CO(3-2) line to the 850 μm fluxes measured with SCUBA, which are seen to be significant (24%).