ALMA [CI] Image of the Circumnuclear Disk of the Milky Way: Inflowing Low-density Molecular Gas

Abstract

We present ALMA [C1]~3P1--3P0 imaging of the central 6.6×4.2~pc2 region of the Galaxy encompassing the circumnuclear disk (CND). The data reveal low-density (nH2103~cm-3) molecular gas with inward motion, widespread both inside and outside the CND. The normalized [C1] to CS~7--6 intensity difference decreases inwardly from R=4~pc to 1.7~pc and azimuthally along the CND's rotation, likely tracing paths of low-density gas inflow. By projecting spaxels into orbital coordinates assuming a velocity field model, we identify four kinematic features: a pair of spiral outer streamers toward the CND, inner streamers extending to 0.5~pc from Sgr~A*, an outer disk at R3--6~pc, and the rotating ring at R=2~pc. P--P--V correlation between the inner streamers and H42α indicates gas supply to the mini-spiral through the western arc (WA) and northern arm (NA). The total inflowing mass is 1.5×104~M, 1.7 times the mass of the rotating ring. The identified flows can be organized into two main pathways connecting the CND exterior and interior: ``WA flow'' feeding the mini-spiral WA via the CND, and ``NA flow'' bypassing the purely rotating orbit. The inflow rate along the former is approximately constant (0.1--0.16~M~yr-1), implying a CND dwelling time comparable to its orbital period and supporting the CND's transient nature. We also identify two [C1]-bright clumps (CBCs) lacking dense-gas counterparts near the contact point between the northern outer streamer and the CND. Apparently intact against tidal disruption despite subcritical densities, the CBCs may represent a chemically young phase shortly after formation in colliding flows.