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arxiv: astro-ph/9910277 · v1 · pith:OGTEIQ3Mnew · submitted 1999-10-14 · 🌌 astro-ph

Axisymmetric Self-Similar Equilibria of Self-Gravitating Isothermal Systems

classification 🌌 astro-ph
keywords equilibriaisothermalsolutionssymmetricsystemsthetaalphaasymmetric
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All axisymmetric self-similar equilibria of self-gravitating, rotating, isothermal systems are identified by solving the nonlinear Poisson equation analytically. There are two families of equilibria: (1) Cylindrically symmetric solutions in which the density varies with cylindrical radius as R^(-alpha), with 0 <= alpha <= 2. (2) Axially symmetric solutions in which the density varies as f(theta)/r^2, where `r' is the spherical radius and `theta' is the co-latitude. The singular isothermal sphere is a special case of the latter class with f(theta)=constant. The axially symmetric equilibrium configurations form a two-parameter family of solutions and include equilibria which are surprisingly asymmetric with respect to the equatorial plane. The asymmetric equilibria are, however, not force-free at the singular points r=0, infinity, and their relevance to real systems is unclear. For each hydrodynamic equilibrium, we determine the phase-space distribution of the collisionless analog.

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