A Cusp-Core like challenge for Modified Newtonian Dynamics

Abstract

We show that Modified Newtonian Dynamics (MOND) predict distinct galactic acceleration curve geometries in g2-space - the space of total observed centripetal accelerations g tot vs the inferred Newtonian acceleration from baryonic matter g N - and corresponding rotation speed curves: MOND modified gravity predicts cored geometries for isolated galaxies while MOND modified inertia yields neutral geometries, ie. neither cuspy or cored, based on a cusp-core classification of galaxy rotation curve geometry in g2-space - rather than on inferred DM density profiles. The classification can be applied both to DM and modified gravity models as well as data and implies a cusp-core challenge for MOND from observations, for example of cuspy galaxies, which is different from the so-called cusp-core problem of dark matter (DM). We illustrate this challenge by a number of cuspy and also cored galaxies from the SPARC rotation curve database, which deviate significantly from the MOND modified gravity and MOND modified inertia predictions.