Properties of molecular gas in galaxies in the early and mid stages of interaction. II. Molecular gas fraction

We have investigated properties of interstellar medium in interacting galaxies in early and mid stages using mapping data of 12CO(J =1-0) and HI. Total gas mass (a sum of atomic and molecular gas mass) in interacting galaxies slightly reduced with large dispersion in the comparison with field galaxies. We found that molecular gas mass is enhanced in interacting galaxies assuming the standard CO-H2 conversion factor, while atomic gas mass is reduced. These results are reinforced by the fact that interacting galaxies have higher molecular gas fraction (fmol), a ratio of the surface density of molecular gas to that of total gas, (0.71 +- 0.15) than isolated galaxies (0.52 +- 0.18) and this indicates that an efficient transition from atomic gas to molecular gas is induced by the interaction. Isolated spiral galaxies show monotonically and gradually increase of fmol along the surface density of total gas. Contrary to isolated galaxies, interacting galaxies show high fmol (>0.8) even at low surface density of total gas of ~20 Msun pc^2. In most extreme case, NGC 5395 have a trend that fmol monotonically decreases as the surface density of total gas increases. To investigate the origin of high fmol in the interacting galaxies, we performed theoretical model fitting varying metallicity and external pressure. According to the model fitting, external pressure can explain high fmol in the interacting galaxies. We conclude that high external pressure which is occurred by the shock prevailing over whole galaxies even in the early stage of the interaction.