A Massive Molecular Torus inside a Gas-Poor Cirnumnuclear Disk in the Radio Galaxy NGC 1052 Discovered with ALMA

Abstract

We report ALMA observations of NGC 1052 to quest mass accretion in a gas-poor active galactic nucleus (AGN). We detected CO emission representing a rotating ring-like circumnuclear disk (CND) seen edge-on with the gas mass of 5.3 × 105 M. The CND has smaller gas mass than that in typical Seyfert galaxies with circumnuclear star formation and is too gas-poor to drive mass accretion onto the central engine. The continuum emission casts molecular absorption features of CO, HCN, HCO+, SO, SO2, CS, CN, and H2O, with H13CN and HC15N and vibrationally-excited (v2 = 1) HCN and HCO+. Broader absorption line widths than CND emission line widths imply presence of a geometrically thick molecular torus with a radius of 2.4 1.3 pc and a thickness ratio of 0.7 0.3. We estimate the H2 column density of (3.3 0.7) × 1025 cm-2 using H12CN, H13CN, and HCO+ absorption features and adopting abundance ratio of 12C-to-13C and a HCO+-to-H2, and derived the torus gas mass of (1.3 0.3) × 107 M, which is 9\% of the central black-hole mass. The molecular gas in the torus is clumpy with the estimated covering factor of 0.17+0.06-0.03. The gas density of clumps inside the torus is inferred to be (6.4 1.3) × 107 cm-3, which meets the excitation conditions of H2O maser. Specific angular momentum in the torus exceeds a flat-rotation curve extrapolated from that of the CND, indicating a Keplerian rotation inside a 14.4-pc sphere of influence.