Implications of the Milky Way Declining Rotation Curve

Abstract

Almost all spiral galaxies have been observed to have flattening rotation curves. The new Gaia DR3 released data shows a Milky Way sharply Keplerian declining rotation curve, starting at 16 kpc and ending at 26.5 kpc. The data reduces the total Milky Way mass by an order of magnitude, M=2.06× 1011M, compared to the standard required dark matter halo mass, (2-5)×1012M. Newtonian and modified gravity (MOG) fits are applied to the Gaia DR3 rotation curve data. The fit obtained using MOG has a total mass of M1.3× 1011M, while the Newtonian fit predicts a mass of M2× 1011M. These are in excess of the estimated visible baryon mass of the Milky Way, Mb (0.6-1.0)× 1011M. It is possible that if the cicumgalactic (CGM) plasma-gas continues to be confirmed experimentally, then the additional baryon mass required to account for the estimated total Milky Way mass could be attributed to the CGM hot plasma-gas halo.