Kinematic hints of a nuclear bar in the Milky Way

Abstract

The Milky Way hosts a flattened nuclear stellar disc (NSD) that dominates the gravitational potential in the inner few hundred parsecs. Whether the NSD is purely axisymmetric or contains a nuclear bar remains an open question. We test for the presence of a nuclear bar using kinematic diagnostics by combining line-of-sight velocities from the KMOS NSD survey with proper motions from VIRAC2 to construct the (v, vlos) velocity ellipse. After applying strict quality cuts to minimise contamination from large-scale bar stars, we measure the vertex deviation lv and anisotropy β for several subsamples. For our primary sample ( || < 0.9 , -0.4 < b < 0.25 , [Fe/H] > -0.3 ), we find a significant negative vertex deviation lv = -54.8+13.1-14.8\, with moderate anisotropy β= 0.16+0.08-0.05 . A subsample restricted to the innermost four fields yields an even stronger signal with lv = -64.3+12.1-12.2\, and β= 0.38+0.12-0.07 . The direction of maximum velocity dispersion is oriented along Galactic longitude, opposite to that observed in large-scale bar-dominated samples. These signatures are robust against extinction-driven incompleteness, primary-bar contamination, and the choice of metallicity threshold. They are inconsistent with an axisymmetric NSD or one oriented orthogonally to the primary bar, but match expectations for a nuclear bar oriented at α≈ 60 -75 to the Sun-Galactic-Centre line with its near side pointing toward positive Galactic longitude. While definitive confirmation awaits larger and more precise samples from upcoming surveys, our results provide the first kinematic indication of a possible nuclear bar in the Milky Way.