Dynamics of a self-gravitating neutron source
Abstract
We examine the dynamics of a self--gravitating magnetized neutron gas as a source of a Bianchi I spacetime described by the Kasner metric. The set of Einstein-Maxwell field equations can be expressed as a dynamical system in a 4-dimensional phase space. Numerical solutions of this system reveal the emergence of a point--like singularity as the final evolution state for a large class of physically motivated initial conditions. Besides the theoretical interest of studying this source in a fully general relativistic context, the resulting idealized model could be helpful in understanding the collapse of local volume elements of a neutron gas in the critical conditions that would prevail in the center of a compact object.
Cite
@article{arxiv.0812.2508,
title = {Dynamics of a self-gravitating neutron source},
author = {D. Manreza Paret and A. Perez Martinez and A. Ulacia Rey and Roberto A. Sussman},
journal= {arXiv preprint arXiv:0812.2508},
year = {2010}
}
Comments
17 pages, 6 figures, JHEP style, published version