Dynamical reconstruction of SPARC galactic halos within self-interacting fuzzy dark matter
Abstract
Fuzzy Dark Matter with non-zero quartic self-interaction (SFDM) is shown to be a viable model for simultaneously fitting 17 dark-matter-dominated galaxies from the SPARC database with a single (m,g) point in the space of boson masses and self-coupling constants: 10(m \,[eV/c2] ) = 10(1.98)-22+0.8-0.6 and 10(g \, [eV \, m3/kg] ) = 10(9.08)-10+0.4-1.2. This is based on the combination of an appropriately constructed static super-Gaussian profile for the inner galactic core (`soliton') region, and a Navarro-Frenk-White profile for the surrounding halo region. The explicit identification of a non-zero interaction strength may resolve issues of inconsistent constraints in non-interacting FDM. Our identification of these parameters enables the explicit dynamical reconstruction of potential host halos for such galaxies through numerical solution of the SFDM equations; we outline a proof-of-principle procedure via merger simulations for two galaxies (UGCA444, UGC07866), and show that this yields viable rotation curves over a dynamical period of O(1) \, Gyr.
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