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Evolution and dynamical properties of Bose-Einstein condensate dark matter stars

Enikő J. M. MadarassyDivision of Astronomy and Space Physics, Uppsala University, 751 20 Uppsala, SwedenViktor T. TothDivision of Astronomy and Space Physics, Uppsala University, 751 20 Uppsala, Sweden
2015en
ABI

Аннотация

Using recently developed nonrelativistic numerical simulation code, we investigate the stability properties of compact astrophysical objects that may be formed due to the Bose-Einstein condensation of dark matter. Once the temperature of a boson gas is less than the critical temperature, a Bose-Einstein condensation process can always take place during the cosmic history of the Universe. Because of dark matter accretion, a Bose-Einstein condensed core can also be formed inside massive astrophysical objects such as neutron stars or white dwarfs, for example. Numerically solving the Gross-Pitaevskii-Poisson system of coupled differential equations, we demonstrate, with longer simulation runs, that within the computational limits of the simulation the objects we investigate are stable. Physical properties of a self-gravitating Bose-Einstein condensate are examined both in nonrotating and rotating cases.

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