arXiv:math-ph/0504051 Abstract

arXiv:math-ph/0504051Abstract References Reviews Resources

Mean Field Dynamics of Boson Stars

Published 2005-04-15Version 1

We consider a quantum mechanical system of N bosons with relativistic dispersion interacting through a mean field Coulomb potential (attractive or repulsive). We choose the initial wave function to describe a condensate, where the N bosons are all in the same one-particle state. Starting from the N-body Schroedinger equation, we prove that, in the limit N goes to infinity, the time evolution of the one-particle density is governed by the relativistic nonlinear Hartree equation. This equation is used to describe the dynamics of boson stars (Chandrasekhar theory). The corresponding static problem was rigorously solved by Lieb and Yau.

Comments: LaTeX file, 36 pages, no figures

Categories: math-ph, math.MP

Subjects: 35Q55, 45F15, 81Q05, 81V70

Keywords: mean field dynamics, boson stars, mean field coulomb potential, relativistic nonlinear hartree equation, n-body schroedinger equation

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