157 research outputs found
Gas Density and the Volume Schmidt Law for Spiral Galaxies
The thickness of the equilibrium isothermal gaseous layers and their volume
densities \rho_{gas}(R) in the disc midplane are calculated for 7 spiral
galaxies (including our Galaxy) in the frame of self-consistent axisymmetric
model. Local velocity dispersions of stellar discs were assumed to be close to
marginal values necessary for the discs to be in a stable equilibrium state.
Under this condition the stellar discs of at least 5 of 7 galaxies reveal a
flaring. Their volume densities decrease with R faster than \rho_{gas}, and, as
a result, the gas dominates by the density at the disc periphery. Comparison of
the azimuthally averaged star formation rate SFR with the gas density shows
that there is no universal Schmidt law SFR \rho_{gas}^n, common to all
galaxies. Nevertheless, SFR in different galaxies reveals better correlation
with the volume gas density than with the column one. Parameter n in the
Schmidt law SFR \rho_{gas}^n, formally calculated by the least square method,
lies within 0.8-2.4 range and it's mean value is close to 1.5. Values of n
calculated for molecular gas only are characterized by large dispersion, but
their mean value is close to 1. Hence the smaller \rho_{gas} the less is a
fraction of gas actively taking part in the process of star formation.Comment: 24 pages, 11 figures, to be published in Astronomy Reports, 200
Midplane Gas Density and the Schmidt Law
The thickness of isothermal gaseous layers and their midplane volume
densities \rho_{gas}(R) were calculated for several spiral and LSB galaxies by
solving the self-consistent equilibrium equations for gaseous discs embedded
into a stellar one. The self-gravity of the gas and influence of dark halo on
the disk thickness were taken into account. The resulting midplane volume
densities of spiral galaxies were compared with the azimuthally averaged star
formation rate SFR to verify the feasibility and universality of the Schmidt
law SFR ~ \rho_{gas}^n.Comment: 2 pages, 2 figures, proceeding of the poster presented at the Vatican
Conf. "Formation and evolution of galaxy disks" held in Rome, 1-5 Oct. 200
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