Kinematic Downsizing at z~2

Abstract

We present results from a survey of the internal kinematics of 49 star-forming galaxies at z\,\,2 in the CANDELS fields with the Keck/MOSFIRE spectrograph (SIGMA, Survey in the near-Infrared of Galaxies with Multiple position Angles). Kinematics (rotation velocity Vrot and integrated gas velocity dispersion σg) are measured from nebular emission lines which trace the hot ionized gas surrounding star-forming regions. We find that by z\,\,2, massive star-forming galaxies (\,M*/M10.2) have assembled primitive disks: their kinematics are dominated by rotation, they are consistent with a marginally stable disk model, and they form a Tully-Fisher relation. These massive galaxies have values of Vrot/σg which are factors of 2-5 lower than local well-ordered galaxies at similar masses. Such results are consistent with findings by other studies. We find that low mass galaxies (\,M*/M10.2) at this epoch are still in the early stages of disk assembly: their kinematics are often supported by gas velocity dispersion and they fall from the Tully-Fisher relation to significantly low values of Vrot. This "kinematic downsizing" implies that the process(es) responsible for disrupting disks at z\,\,2 have a stronger effect and/or are more active in low mass systems. In conclusion, we find that the period of rapid stellar mass growth at z\,\,2 is coincident with the nascent assembly of low mass disks and the assembly and settling of high mass disks.