Fast inflowing ionized absorber tracing the gas dynamics at sub-parsec scale around Mrk 3

Abstract: Accretion onto supermassive black hole (SMBH) releases energy via radiation, jets or winds, providing feedback effects on the circumnuclear gas environment. However, the dynamics of accreting gas on sub-parsec scales near the SMBH remains poorly understood. With high-resolution X-ray spectra of Mrk 3, we detect a fast inflowing ionized absorber characterized by redshifted Fe XXV and Fe XXVI absorption lines. Photoionization modeling reveals the inflowing absorber is located at $\lesssim0.04-0.74\rm~pc$ and is decelerating from $6.1\pm0.5\times10^3\rm~km~s^{-1}$ to $3.4\pm0.3\times10^3\rm~km~s^{-1}$ over 11 years. Only $\sim0.6$\%--$3$\% of the inflowing material is estimated to reach the event horizon. This direct evidence of sub-parsec scale fueling inflow bridges the gap between the torus and the outer accretion disk. Furthermore, a $0.86$-keV gas component with sub-solar metallicity ($Z\sim0.22$), outflowing at a velocity of $\sim330\rm~km~s^{-1}$, is detected in the soft X-ray band. It may corresponds to the [O III] biconical outflow in the narrow-line region. A putative ultra-fast disk wind outside our line-of-sight, or clouds within the broad-line region, are promising candidates for decelerating the inflowing absorber.