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Testing Bose–Einstein condensate dark matter models with the SPARC galactic rotation curves data

Maria Crăciun, Tiberiu Harko

2020The European Physical Journal C36 citationsDOIOpen Access PDF

Abstract

Abstract The nature of one of the fundamental components of the Universe, dark matter, is still unknown. One interesting possibility is that dark matter could exist in the form of a self-interacting Bose–Einstein Condensate (BEC). The fundamental properties of dark matter in this model are determined by two parameters only, the mass and the scattering length of the particle. In the present study we investigate the properties of the galactic rotation curves in the BEC dark matter model, with quadratic self-interaction, by using 173 galaxies from the recently published Spitzer Photomery & Accurate Rotation Curves (SPARC) data. We fit the theoretical predictions of the rotation curves in the slowly rotating BEC models with the SPARC data by using genetic algorithms. We provide an extensive set of figures of the rotation curves, and we obtain estimates of the relevant astrophysical parameters of the BEC dark matter halos (central density, angular velocity and static radius). The density profiles of the dark matter distribution are also obtained. It turns out that the BEC model gives a good description of the SPARC data. The presence of the condensate dark matter could also provide a solution for the core–cusp problem.

Topics & Concepts

PhysicsDark matterGalaxy rotation curveScalar field dark matterAstrophysicsHot dark matterRotation (mathematics)Dark matter haloCuspy halo problemGalaxyHaloDark fluidBaryonic dark matterGalactic haloScatteringCold dark matterCosmologyLight dark matterMass distributionMilky WayDark Matter and Cosmic PhenomenaCosmology and Gravitation TheoriesAstronomy and Astrophysical Research
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