Stellar velocity dispersion and mass estimation for galactic disks

Available velocity dispersion estimates for the old stellar population of galactic disks at galactocentric distances r similar or equal to 2L (where L is the photometric radial scale length of the disk) are used to determine the threshold local surface density of disks that are stable against gravitational perturbations. The mass of the disk M-d calculated under the assumption of its marginal stability is compared with the total mass M-t and luminosity L-B of the galaxy within r = 4L. We corroborate the conclusion that a substantial fraction of the mass in galaxies is probably located in their dark halos. The ratio of the radial velocity dispersion to the circular velocity increases along the sequence of galactic color indices and decreases from the early to late morphological types. For most of the galaxies with large color indices (B - V)(0) > 0.75, which mainly belong to the S0 type, the velocity dispersion exceeds significantly the threshold value required for the disk to be stable. The reverse situation is true for spiral galaxies: the ratios M-d/L-B for these agree well with those expected for evolving stellar systems with the observed color indices. This suggests that the disks for spiral galaxies underwent no significant dynamical heating after they reached a quasi-equilibrilum stable state. (C) 2004MAIK"Nauka/lnterperiodica".