N. Kuno et al., DISTRIBUTION AND DYNAMICS OF MOLECULAR GAS IN THE GALAXY M51 .2. FORMATION OF GIANT MOLECULAR ASSOCIATIONS AND MASSIVE STARS, Publications of the Astronomical Society of Japan, 47(6), 1995, pp. 745-760
We have investigated the distributions of molecular gas, HI-to-H-2 con
version and the formation mechanisms of Giant Molecular Associations (
GMAs) and of massive stars in M51 using mapping data of CO obtained wi
th the NRO 45-m telescope. The variations of the molecular-to-total ga
s mass fraction in the disk and its dependence on the total gas densit
y and the radiation held are shown. The possibilities of a gravitation
al instability and cloud-cloud collisions as the formation mechanisms
of GMAs are examined. A gravitational instability is supported from a
comparison between the surface density of the total gas and the critic
al density of the gravitational instability, as well as from the spati
al separations of the GMAs. On the other hand, since the time scale of
a cloud-cloud collision is much shorter than the arm-crossing time, c
loud coagulation may also work for GMA formation together with a gravi
tational instability. Point-by-point comparisons between the star-form
ation rates (SFRs) and the gas surface densities show that the SFR is
correlated with the surface density of the total gas better than with
that of the molecular gas alone. Observations of (CO)-C-13 and HCN ind
icate denser gas in the spiral arms than in the interarms.