Disk-to-halo mass ratio evaluations based on the numerical models of collisionless disks

Abstract

We propose that the lower bound of the stellar radial velocity dispersion cr of an equilibrium stellar disk is determined by the gravitational stability condition. We compared the estimates of stellar velocity dispersion at radii r>(1.5 - 2)R0 (where R0 is the photometric radial scalelength of a disk), found in the literature, with the minimal values of cr necessary for the disk to be in a stable state, using the results of numerical simulations of 3D collisional disks. This approach enables to estimate an upper limit of the local surface density and (if R0 is known) a total masses of a disk and a dark halo. We argue that the old stellar disks of spiral galaxies with active star formation usually have the velocity dispersions which are close to the expected marginal values. A rough values of disk-to-total mass ratios (within the fixed radius) are found for about twenty spiral galaxies. Unlike spirals, the disks of the ``red'' Sa--S0 galaxies are evidently ``overheated'': their radial dispersion of velocities at r ~ 2 R0 exceeds significantly the marginal values for gravitational stability.

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