To beta or not to beta: can higher-order Jeans analysis break the mass-anisotropy degeneracy in simulated dwarfs?
A non-parametric higher-order Jeans analysis method, GravSphere, was recently used to constrain the density profiles of Local Group dwarf galaxies, classifying them into those that are more likely to have an inner dark matter cusp and those that are likely to have a core (Read et al.). In this work we test this method using 31 simulated galaxies, comparable to Fornax, selected from the APOSTLE suite of cosmological hydrodynamics simulations, which include CDM and Self-Interacting Dark Matter (SIDM) cosmologies. We find that the mass profiles of the simulated dwarfs are often, but not always, well recovered by GravSphere. The less successful cases may be identified using a chi-squared diagnostic. Although the uncertainties are large in the inner regions, the inferred mass profiles are unbiased and exhibit smaller scatter than comparable Jeans methods. We find that GravSphere recovers the density profiles of simulated dwarfs below the half-light radius and down to the resolution limit of our simulations with better than 10+-30 per cent accuracy, making it a promising Jeans-based approach for modelling dark matter distributions in dwarf galaxies.
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