Gravitational Stability in the Disk of M51

Abstract

Star formation laws, like i.e. the Schmidt law relating star formation rate and total gas density, have been studied in several spiral galaxies but the underlying physics are not yet well understood.M,51, as a nearby face-on galaxy grand design spiral studied in many line transitions, is an ideal target to study the connection between physical conditions of the gas and star formation activity. In this contribution we combine molecular, atomic, total gas and stellar surface densities and study the gravitational stability of the gas (Schuster et al. [5], Hitschfeld et al.[3])From our IRAM-30m 12CO 2–1 map and complementary HI-, radio continuum- and ACS B-band data we derive maps of the total gas density and the stellar surface density to study the gravitational stability of the gas via the Toomre Q-parameter. As an important factor in this analysis we also present a map indicating the velocity dispersion of the molecular gas estimated from the equivalent widths Δ v eq of the 12CO 2–1 data.KeywordsStar FormationVelocity DispersionGravitational CollapseEquivalent WidthLogarithmic SpiralThese keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.