The MUSE-Faint survey. II. The dark matter-density profile of the ultra-faint dwarf galaxy Eridanus 2

Abstract

Aims. We use stellar line-of-sight velocities to constrain the dark matter-density profile of Eridanus 2, an ultra-faint dwarf galaxy (MV = -7.1, M* ≈ 9 × 104\,M). We furthermore derive constraints on fundamental properties of self-interacting and fuzzy dark matter scenarios. Methods. We present new observations of Eridanus 2 from MUSE-Faint, a survey of ultra-faint dwarf galaxies with MUSE on the Very Large Telescope, and determine line-of-sight velocities for stars inside the half-light radius. Combined with literature data, we have 92 stellar tracers out to twice the half-light radius. We constrain models of cold dark matter, self-interacting dark matter, and fuzzy dark matter with these tracers, using CJAM and pyGravSphere for the dynamical analysis. Results. We find substantial evidence for cold dark matter over self-interacting dark matter and weak evidence for fuzzy dark matter over cold dark matter. We find a virial mass M200 108\,M and astrophysical factors J(αcJ) 1011\,M2\,kpc-5 and D(αcD) 102-102.5\,M\,kpc-2. We do not resolve a core (rc < 47\,pc, 68-% level) or soliton (rsol < 7.2\,pc, 68-% level). These limits are equivalent to an effective self-interaction coefficient f < 2.2 × 10-29\,cm3\,s-1\,eV-1\,c2 and a fuzzy-dark-matter particle mass ma > 4.0 × 10-20\,eV\,c-2. The constraint on self-interaction is complementary to those from gamma-ray searches. The constraint on fuzzy-dark-matter particle mass is inconsistent with those obtained for larger dwarf galaxies, suggesting that the flattened density profiles of those galaxies are not caused by fuzzy dark matter. (Abridged)

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