Uniformly Rotating Polytropic Rings in Newtonian Gravity
Abstract
An iterative method is presented for solving the problem of a uniformly rotating, self-gravitating ring without a central body in Newtonian gravity by expanding about the thin ring limit. Using this method, a simple formula relating mass to the integrated pressure is derived to the leading order for a general equation of state. For polytropes with the index n=1, analytic coefficients of the iterative approach are determined up to the third order. Analogous coefficients are computed numerically for other polytropes. Our solutions are compared with those generated by highly accurate numerical methods to test their accuracy.
Cite
@article{arxiv.0802.0081,
title = {Uniformly Rotating Polytropic Rings in Newtonian Gravity},
author = {David Petroff and Stefan Horatschek},
journal= {arXiv preprint arXiv:0802.0081},
year = {2009}
}
Comments
10 pages, 8 figures, minor corrections, references added. This paper has be combined with arXiv:0802.0078 and published in MNRAS, see arXiv:0808.2612