The rest-frame optical sizes of massive galaxies with suppressed star formation at z4

Abstract

We present the rest-frame optical sizes of massive quiescent galaxies (QGs) at z4 measured at K'-band with the Infrared Camera and Spectrograph (IRCS) and AO188 on the Subaru telescope. Based on a deep multi-wavelength catalog in the Subaru XMM-Newton Deep Survey Field (SXDS), covering a wide wavelength range from the u-band to the IRAC 8.0μ m over 0.7 deg2, we evaluate photometric redshift to identify massive (M1011\ M) galaxies with suppressed star formation. These galaxies show a prominent 4000 break feature at z4, suggestive of an evolved stellar population. We then conduct follow-up K'-band imaging with adaptive optics for the five brightest galaxies (KAB,total=22.523.4). Compared to lower redshift ones, QGs at z4 have smaller physical sizes of effective radii reff=0.2 to 1.8 kpc. The mean size measured by stacking the four brightest objects is reff=0.7\ kpc. This is the first measurement of the rest-frame optical sizes of QGs at z4. We evaluate the robustness of our size measurements using simulations and find that our size estimates are reasonably accurate with an expected systematic bias of 0.2 kpc. If we account for the stellar mass evolution, massive QGs at z4 are likely to evolve into the most massive galaxies today. We find their size evolution with cosmic time in a form of (re/ kpc)= -0.44+1.77 (t/ Gyr). Their size growth is proportional to the square of stellar mass, indicating the size-stellar mass growth driven by minor dry mergers.