The overmassive black hole in NGC 1277: new constraints from molecular gas kinematics

TL;DR

This study uses molecular gas kinematics to constrain the mass of the black hole in NGC 1277, providing evidence for an overmassive black hole consistent with previous stellar measurements.

Contribution

It presents new CO(1-0) emission observations that refine the black hole mass estimate in NGC 1277, supporting the overmassive black hole hypothesis with molecular gas dynamics.

Findings

CO(1-0) emission traces molecular gas orbiting at ~550 km/s

Black hole mass estimated at ~1.7 x 10^10 M_sun with M/L_V=6.3

Evidence of a weak AGN from continuum emission

Abstract

We report the detection of CO(1-0) emission from NGC 1277, a lenticular galaxy in the Perseus Cluster. NGC 1277 has previously been proposed to host an overmassive black hole (BH) compared to the galaxy bulge luminosity (mass), based on stellar-kinematic measurements. The CO(1-0) emission, observed with the IRAM Plateau de Bure Interferometer (PdBI) using both, a more compact (2.9-arcsec resolution) and a more extended (1-arcsec resolution) configuration, is likely to originate from the dust lane encompassing the galaxy nucleus at a distance of 0.9 arcsec (~320 pc). The double-horned CO(1-0) profile found at 2.9-arcsec resolution traces $1.5\times 10^8\ M_\odot$ of molecular gas, likely orbiting in the dust lane at $\sim 550\ \mathrm{km\ s^{-1}}$, which suggests a total enclosed mass of $\sim 2\times 10^{10}\ M_\odot$. At 1-arcsec resolution, the CO(1-0) emission appears spatially resolved along the dust lane in east-west direction, though at a low signal-to-noise ratio. In agreement with the previous stellar-kinematic measurements, the CO(1-0) kinematics is found to be consistent with an $\sim 1.7\times 10^{10}\ M_\odot$ BH for a stellar mass-to-light ratio of $M/L_V=6.3$, while a less massive BH of $\sim 5\times 10^{9}\ M_\odot$ is possible when assuming a larger $M/L_V=10$. While the molecular gas reservoir may be associated with a low level of star formation activity, the extended 2.6-mm continuum emission is likely to originate from a weak AGN, possibly characterized by an inverted radio-to-millimetre spectral energy distribution. Literature radio and X-ray data indicate that the BH in NGC 1277 is also overmassive with respect to the Fundamental Plane of BH activity.