Evolution of the Dependence of Rest-frame Color and Morphology Distribution on Stellar Mass for Galaxies in the Hubble Deep Field North

Abstract

Using the Subaru very deep K'-band imaging and HST WFPC2/NICMOS archival data of the Hubble Deep Field North, we investigate the evolution of the stellar mass, color, morphology of galaxies to z ~ 3. We mainly examine the rest-frame U-V color distribution of galaxies as a function of stellar mass. At 0.3<z<2, galaxies seem to be divided into the two populations at around the stellar mass of ~5x109 Msolar. The low-mass galaxies have relatively bluer rest U-V color and their color does not show clear correlation with stellar mass over the range of 108-5x109 Msolar. On the other hand, at higher mass, the more massive galaxies tend to have the redder U-V color. The average U-V color of the low-mass galaxies becomes bluer gradually with redshift, from U-V ~ 0.2 at z ~ 0.5 to U-V ~ -0.2 at z ~ 2. On the contrary, the correlation between the stellar mass and rest U-V color of the high-mass population does not seem to change significantly between z ~ 0.3 and z ~ 2. At z>2, it is seen that more massive galaxies tend to have redder U-V color over the range of 109-1010 Msolar. These results suggests that the star formation history of galaxies depends on their stellar mass very much. The low-mass population is likely to have relatively long star formation timescale. At the stellar mass larger than ~5x109 Msolar, there must be some mechanisms which suppress the star formation in galaxies at 0<z<2.

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