The MBHBM Project -- II. Molecular Gas Kinematics in the Lenticular Galaxy NGC 3593 Reveal a Supermassive Black Hole

Abstract

As part of the Measuring Black Holes in Below Milky Way-mass (M) galaxies (MBHBM) Project, we present a dynamical measurement of the supermassive black hole (SMBH) mass in the nearby lenticular galaxy NGC 3593, using cold molecular gas 12CO(2-1) emission observed at an angular resolution of ≈0''.3 (≈10 pc) with the Atacama Large Millimeter/submillimeter Array (ALMA). Our ALMA observations reveal a circumnuclear molecular gas disc (CND) elongated along the galaxy major axis and rotating around the SMBH. Using dynamical modelling, the molecular gas kinematics allow us to infer a SMBH mass M BH=2.40-1.05+1.87×106 M (only statistical uncertainties at the 3σ level). We also detect a massive core of cold molecular gas (CMC) of mass M CMC=(5.41.2)×106 M and effective (half-mass) radius r CMC,e=11.22.8 pc, co-spatial with a nuclear star cluster (NSC) of mass M NSC=(1.670.48)×107 M and effective radius r NSC,e=5.01.0~pc (or 0''.150''.03). The mass profiles of the CMC and NSC are well described by S\'ersic functions with indices 1-1.4. Our M BH and M NSC estimates for NGC 3593 agree well with the recently compiled M BH-M NSC scaling relation. Although the M NSC uncertainty is twice the inferred M BH, the rapid central rise of the rotation velocities of the CND (as the radius decreases) clearly suggests a SMBH. Indeed, our dynamical models show that even if M NSC is at the upper end of its allowed range, the evidence for a black hole does not vanish, but remains with a lower limit of M BH>3×105 M.

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