JWST/MIRI reveals the true number density of massive galaxies in the early Universe

Abstract

Early JWST studies reporting an unexpected abundance of massive galaxies at z 5--8 challenge galaxy formation models in the framework. Previous stellar mass (M) estimates suffered from large uncertainties due to the lack of rest-frame near-infrared data. Using deep JWST/NIRCam and MIRI photometry from PRIMER, we systematically analyze massive galaxies at z 3--8, leveraging rest-frame 1\,μm constraints. We find MIRI is critical for robust M measurements for massive galaxies at z > 5: excluding MIRI overestimates M by 0.4 dex on average for M > 1010\,M galaxies, with no significant effects at lower masses. This reduces number densities of M > 1010\,M (1010.3\,M) galaxies by 36\% (55\%). MIRI inclusion also reduces ``Little Red Dot'' (LRD) contamination in massive galaxy samples, lowering the LRD fraction from 32\% to 13\% at M > 1010.3\,M. Assuming pure stellar origins, LRDs exhibit M 109--10.5\,M with MIRI constraints, rarely exceeding 1010.5\,M. Within standard , our results indicate a moderate increase in the baryon-to-star conversion efficiency (ε) toward higher redshifts and masses at z > 3. For the most massive z 8 galaxies, ε 0.3, compared to ε 0.2 for typical galaxies at z < 3. This result is consistent with models where high gas densities and short free-fall times suppress stellar feedback in massive high-z halos.