1110.5670 (R. N. Henriksen)

Spiral Structure in Scale-free, Thin Discs: Rigid Rotation    [PDF]

R. N. Henriksen

In this paper we suggest the existence in the central regions of spiral galaxies of collisionless, scale-free, rigidly rotating, self-gravitating discs with spiral symmetry. Such discs must be truncated at a finite radius, and they must be stabilized and rendered self-similar by a suitable halo. The halo and the rotating disc share the self-similar class and must form together to arrive at the suggested state. We make comparisons with the well-known rigidly rotating, Kalnajs discs; one of which is axi-symmetric and finite while the other is infinite and decomposed into spiral modes. We find the self-consistent, self-similar, distribution functions in one and two dimensions in a rigidly rotating, collisionless system. In the case of two dimensions we deduce the self-consistency condition for discrete spiral arms. We give an estimate of the disturbance created in the halo by the presence of the disc, and argue that the halo itself should be close to self-similarity. A very weak cusp in the halo may be necessary. The necessary spatial coincidence of the halo results in a kind of disc-halo `conspiracy'. Finally the disc equations are formulated in `spiral' coordinates, and the passage to an approximately discrete `line spiral' is given as an example. Although in two dimensions the collisionless particles enter and leave the arms in non-linear epicycles, they move approximately parallel to the arms in the line spiral limit. The spiral pattern is however in rigid rotation. Aperiodic spiral arms are suggested wherein discontinuities may be coarse-grained to appear as collisionless shocks.

View original: http://arxiv.org/abs/1110.5670