The Circumnuclear Molecular Gas in the Seyfert Galaxy NGC4945

Abstract

We have mapped the central region of NGC 4945 in the J=21 transition of 12CO, 13CO, and C18O, as well as the continuum at 1.3 mm, at an angular resolution of 5 × 3 with the Submillimeter Array. The relative proximity of NGC 4945 (distance of only 3.8 Mpc) permits a detailed study of the circumnuclear molecular gas and dust in a galaxy exhibiting both an AGN (classified as a Seyfert 2) and a circumnuclear starburst in an inclined ring with radius 25 (50 pc). We find that all three molecular lines trace an inclined rotating disk with major axis aligned with that of the starburst ring and large-scale galactic disk, and which exhibits solid-body rotation within a radius of 5 (95 pc). We infer an inclination for the nuclear disk of 62 2, somewhat smaller than the inclination of the large-scale galactic disk of 78. The continuum emission at 1.3 mm also extends beyond the starburst ring, and is dominated by thermal emission from dust. If it traces the same dust emitting in the far-infrared, then the bulk of this dust must be heated by star-formation activity rather than the AGN. We discover a kinematically-decoupled component at the center of the disk with a radius smaller than 14 (27 pc), but which spans approximately the same range of velocities as the surrounding disk. This component has a higher density than its surroundings, and is a promising candidate for the circumnuclear molecular torus invoked by AGN unification models.