SERENADE II: An ALMA Multi-Band Dust-Continuum Analysis of 28 Galaxies at 5<z<8 and the Physical Origin of the Dust Temperature Evolution

Abstract

We present an analysis of ALMA multi-band dust-continuum observations for 28 spectroscopically-confirmed bright Lyman-break galaxies at 5<z<8. Our sample consists of 11 galaxies at z6 newly observed in our ALMA program, which substantially increases the number of 5<z<8 galaxies with both rest-frame 88 and 158 μ m continuum observations, allowing us to simultaneously measure the IR luminosity and dust temperature for a statistical sample of z5 galaxies for the first time. We derive the relationship between the UV slope (β UV) and infrared excess (IRX) for the z6 galaxies, and find a shallower IRX-β UV relation compared to the previous results at z2--4. Based on the IRX-β UV relation consistent with our results and the β UV-M UV relation including fainter galaxies in the literature, we find a limited contribution of the dust-obscured star formation to the total SFR density, 30\% at z6. Our measurements of the dust temperature at z6-7, T dust=40.9-9.1+10.0\, K on average, supports a gentle increase of T dust from z=0 to z6--7. Using an analytic model with parameters consistent with recent JWST results, we discuss that the observed redshift evolution of the dust temperature can be reproduced by an 0.6\, dex increase in the gas depletion timescale and 0.4\, dex decrease of the metallicity. The variety of T dust observed at high redshifts can also be naturally explained by scatters around the star-formation main sequence and average mass-metallicity relation, including an extremely high dust temperature of T dust>80\, K observed in a galaxy at z=8.3.

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