http://arxiv.org/abs/2305.03993
Mass accretion is a fundamental process for the growth of supermassive black holes and activating the central engine. However, detailed accretion properties have not been observationally identified at the central ~10 parsec of active galaxies due to its compactness. Here we for the first time ever report the direct detection of parsec-scale (i.e., 0.01% scale of the host galaxy) dense molecular inflow in the active nucleus of the Circinus galaxy. Only a tiny portion (< 3%) of this inflow is consumed in the actual black hole growth but a bulk portion is blown-out by multiphase outflows. The dense gas disk is gravitationally unstable and drives accretion down to the central ~1 parsec, but another process will be required for the final subparsec-scale accretion.
T. Izumi, K. Wada, M. Imanishi, et. al.
Tue, 9 May 23
87/88
Comments: Main = 10 pages (4 figures), Supplementary Materials = 15 pages (6 figures, 2 tables). Submitted to Science on 27 Sept 2022. This manuscript is the original submitted version (i.e., before peer review ver.)
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