A universal stellar-mass and size relation of galaxies in GOODS-N region

Abstract

We present scaling relations between stellar-mass (Mstar) and the size of galaxies at 0.3 < z < 3 for half- (R50) and 90 percent-light (R90) radii, using a deep K-band selected catalogue taken with the Subaru Telescope and MOIRCS in the GOODS-North region. The logarithmic slope R Mstar0.1-0.2 is independent of redshift in a wide mass range of Mstar ~ 108-1011 Msun, irrespective of galaxy populations (star-forming, quiescent). The offset change is < 50 percent. Provided that optical light in the rest frame traces the stellar mass of galaxies, the universal relation demonstrates that the stellar mass was built up in galaxies over their cosmic histories in a similar manner on average irrelevant to galaxy mass. The small offset in each stellar mass bin from the universal relation shows weak size evolution at a given mass. There is a moderate increase of 30-50 percent for R50 and R90 for less massive galaxies (Mstar < 1010 Msun) from z~3 to z~1, while the sizes remains unchanged or slightly decrease towards z~0.3. For massive galaxies (Mstar > 1011 Msun), the evolution is ~70-80 % increase in R90 from z~3 to z~0.3, though that in R50 is weaker. The evolution of compactness factor, R50/R90, which becomes smaller at lower redshift, is suggestive of minor merging effect in the outer envelope of massive galaxies.