The size evolution of high-redshift galaxies

Hubble Space Telescope images of high-redshift galaxies selected via color and photometric redshifts are used to examine the size and axial ratio distribution of galaxies as a function of redshift at look-back times t>8 Gyr. These parameters are measured at rest-frame UV wavelengths (1200 Angstrom < λ < 2000 Angstrom) on images with a rest frame resolution of less than 0.8 kpc. Galaxy radii are found to scale with redshift approximately as the Hubble parameter H-1(z). This is in accord with the theoretical expectation that the typical sizes of the luminous parts of galaxies should track the expected evolution in the virial radius of dark matter halos. The mean ratio of the semimajor axis to the semiminor axis for a bright well-resolved sample of galaxies at zsimilar to4 is b/a=0.65 suggesting that these Lyman break galaxies are not drawn from a spheroidal population. However, the median concentration index of this sample is C=3.5, which is closer to the typical concentration indices of nearby elliptical galaxies (Csimilar to4) than to the values for local disk galaxies of type Sb and later (C<2).