Scale-free Equilibria of Magnetized Polytropic Clouds

Abstract

We investigate the equilibrium properties of self-gravitating magnetized clouds with polytropic equations of state with negative index n. In particular, we consider scale-free isopedic configurations that have constant dimensionless spherical mass-to-flux ratio lambdar and that may constitute ``pivotal'' states for subsequent dynamical collapse to form groups or clusters of stars. For given Gamma = 1 + 1/n, equilibria with smaller values of lambdar are more flattened, ranging from spherical configurations with lambdar = infinity to completely flattened states for lambdar=1. For a given amount of support provided by the magnetic field as measured by the dimensionless parameter H0, equilibria with smaller values of Gamma are more flattened. However, logatropic (defined by Gamma = 0) disks do not exist. The only possible scale-free isopedic equilibria with logatropic equation of state are spherical uniformly magnetized clouds.

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