The MASSIVE Survey XIII -- Spatially Resolved Stellar Kinematics in the Central 1 kpc of 20 Massive Elliptical Galaxies with the GMOS-North Integral-Field Spectrograph

Abstract

We use observations from the GEMINI-N/GMOS integral-field spectrograph (IFS) to obtain spatially resolved stellar kinematics of the central 1 kpc of 20 early-type galaxies (ETGs) with stellar masses greater than 1011.7 M in the MASSIVE survey. Together with observations from the wide-field Mitchell IFS at McDonald Observatory in our earlier work, we obtain unprecedentedly detailed kinematic maps of local massive ETGs, covering a scale of 0.1-30 kpc. The high ( 120) signal-to-noise of the GMOS spectra enable us to obtain two-dimensional maps of the line-of-sight velocity, velocity dispersion σ, as well as the skewness h3 and kurtosis h4 of the stellar velocity distributions. All but one galaxy in the sample have σ(R) profiles that increase towards the center, whereas the slope of σ(R) at one effective radius (Re) can be of either sign. The h4 is generally positive, with 14 of the 20 galaxies having positive h4 within the GMOS aperture and 18 having positive h4 within 1 Re. The positive h4 and rising σ(R) towards small radii are indicative of a central black hole and velocity anisotropy. We demonstrate the constraining power of the data on the mass distributions in ETGs by applying Jeans anisotropic modeling (JAM) to NGC~1453, the most regular fast rotator in the sample. Despite the limitations of JAM, we obtain a clear 2 minimum in black hole mass, stellar mass-to-light ratio, velocity anisotropy parameters, and the circular velocity of the dark matter halo.