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On dark stars, galactic rotation curves and fast radio bursts

: Nikitin, I.

Volltext ()

Institute of Physics -IOP-, London:
9th International Conference on Mathematical Modeling in Physical Sciences, IC-MSQUARE 2020 : 7-10 September 2020, Tinos island, Greece
Bristol: IOP Publishing, 2021 (Journal of physics. Conference series 1730)
Art. 012073, 25 S.
International Conference on Mathematical Modeling in Physical Sciences (IC-MSQUARE) <9, 2020, Online>
Konferenzbeitrag, Elektronische Publikation
Fraunhofer SCAI ()

This paper is a continuation of our recent work on Radial Dark Matter stars (RDM-stars), black holes, coupled with radial flows of dark matter. As a galaxy model, it produces flat rotation curves, approximately valid for many galaxies far from the center. In this paper, more detailed modeling is carried out, including the vicinity of the galactic center. Assuming that the distribution of stellar black holes repeats the distribution of luminous matter, we get a perfect match between the model rotation curves and the observed ones. Further, using numerical integration, we examine the gravitational field of an individual RDM-star. The computation shows the event horizon being erased and rapidly increasing mass density arising instead (mass inflation). In this regime, we apply the previously constructed Planck star model, where at high densities a repulsive force occurs (quantum bounce). In our stationary model, the evolution of a Planck star has stopped under the pressure of dark matter flows. This system is considered as a possible source of Fast Radio Bursts (FRBs). In a scenario involving an asteroid falling onto an RDM-star, the model reproduces the correct frequency range of FRBs. Their total energy, coherence and short duration are explained as well.