The SINS/zC-SINF Survey of z~2 Galaxy Kinematics: Rest-frame Morphology, Structure, and Colors from Near-infrared Hubble Space Telescope Imaging

Abstract

We present the analysis of HST J- and H-band imaging for 29 galaxies on the star-forming main sequence at z2, which have Adaptive Optics VLT SINFONI integral field spectroscopy from our SINS/zC-SINF program. The SINFONI Hα data resolve the on-going star-formation and the ionized gas kinematics on scales of 1-2 kpc; the near-IR images trace the galaxies' rest-frame optical morphologies and distributions of stellar mass in old stellar populations at a similar resolution. The global light profiles of most galaxies show disk-like properties well described by a single S\'ersic profile with n1, with only 15% requiring a high n>3 S\'ersic index, all more massive than 1010M. In bulge+disk fits, about 40% of galaxies have a measurable bulge component in the light profiles, with 15% showing a substantial bulge-to-total ratio B/T0.3. This is a lower limit to the frequency of z2 massive galaxies with a developed bulge component in stellar mass because it could be hidden by dust and/or outshined by a thick actively star-forming disk component. The galaxies' rest-optical half-light radii range between 1-7 kpc, with a median of 2.1 kpc, and lie slightly above the size-mass relation at these epochs reported in the literature. This is attributed to differences in sample selection and definitions of size and/or mass measurements. The (u-g)rest color gradient and scatter within individual z2 massive galaxies with 1011M are as high as in z=0 low-mass, late-type galaxies, and are consistent with the high star-formation rates of massive z2 galaxies being sustained at large galactocentric distances.