The Structure of Self-Gravitating Polytropic Systems with n around 5

Abstract

We investigate the structure of self-gravitating polytropic stellar systems. We present a method which allows to obtain approximate analytical solutions, n+ε( x), of the nonlinear Poisson equation with the polytropic index n+ε, given the solution n( x) with the polytropic index n, for any positive or negative ε such that |ε|1. Application of this method to the spherically symmetric stellar polytropes with n5 yields the solutions which describe spatially bound systems if n<5 and the formation of a second core if n>5. A heuristic approximate expressions for the radial profiles are also presented. Due to the duality between stellar and gas polytropes, our results are valid for gaseous, self-gravitating polytropic systems (e.g., molecular clouds) with the index γ 6/5. Stability of such systems and observational consequences for both stellar and gaseous systems are discussed.

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