A census of quiescent galaxies across 0.5 < z < 8 with JWST/MIRI: Mass-dependent number density evolution of quiescent galaxies in the early Universe

Abstract

Recent JWST observations have revealed a large population of quiescent galaxies (QGs) at high redshift (z 4-8), challenging current models of early galaxy formation and quenching. Accurate number density estimates are crucial but remain uncertain. We present a systematic study of QGs at 0.5 < z < 8 using a mass-complete sample from the JWST/PRIMER survey with deep NIRCam and MIRI imaging. We demonstrate that MIRI photometry is essential for refining the QG sample: it helps to mitigate contamination from dusty star-forming galaxies in the high-mass regime at z 3-5 and aids in recovering lower-mass QG candidates at z > 5 that are often missed without including MIRI data. We find that the evolution of the QG number density is strongly mass-dependent. The density of massive QGs ( (M/M) > 10.6) declines rapidly, falling from n ≈ 1.32×10-5~~Mpc-3 at z 3-4 to n < 1 ×10-6~~Mpc-3 at z 6, and becomes negligible at z > 6. In contrast, low-mass QGs (9.5 < (M/M) < 10.6) exhibit a remarkably constant number density of n 3×10-6~Mpc-3 across the redshift range z = 4-8. This plateau suggests that these high-redshift, low-mass QGs may be galaxies undergoing temporary quenching episodes, likely subject to rejuvenation upon future gas accretion. Comparisons with leading galaxy formation models reveal significant tensions: most models underestimate the abundance of massive QGs at z > 4 and fail to reproduce the flat density evolution observed for the low-mass population.

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