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Symmetry Breaking in d-Dimensional Self-gravitating Systems

arXiv:1311.4892 · doi:10.1103/PhysRevLett.111.230603

Abstract

Systems with long-range interactions, such as self-gravitating clusters and magnetically confined plasmas, do not relax to the usual Boltzmann-Gibbs thermodynamic equilibrium, but become trapped in quasi-stationary states (QSS) the life time of which diverges with the number of particles. The QSS are characterized by the lack of ergodicity which can result in a symmetry broken QSS starting from a spherically symmetric particle distribution. We will present a theory which allows us to quantitatively predict the instability threshold for spontaneous symmetry breaking for a class of d-dimensional self-gravitating systems.

5 pages, 4 figures. Accepted for publication in Physical Review Letters