The SAMI Galaxy Survey: mass-kinematics scaling relations

Abstract

We use data from the Sydney-AAO Multi-object Integral-field spectroscopy (SAMI) Galaxy Survey to study the dynamical scaling relation between galaxy stellar mass M* and the general kinematic parameter SK = K Vrot2 + σ2 that combines rotation velocity Vrot and velocity dispersion σ. We show that the M* - SK relation: (1)~is linear above limits set by properties of the samples and observations; (2)~has slightly different slope when derived from stellar or gas kinematic measurements; (3)~applies to both early-type and late-type galaxies and has smaller scatter than either the Tully-Fisher relation ( M* - Vrot) for late types or the Faber-Jackson relation ( M* - σ) for early types; and (4)~has scatter that is only weakly sensitive to the value of K, with minimum scatter for K in the range 0.4 and 0.7. We compare SK to the aperture second moment (the `aperture velocity dispersion') measured from the integrated spectrum within a 3-arcsecond radius aperture (σ3). We find that while SK and σ3 are in general tightly correlated, the M* - SK relation has less scatter than the M* - σ3 relation.