A SPectroscopic survey of biased halos In the Reionization Era (ASPIRE): Spectroscopically Complete Census of Obscured Cosmic Star Formation Rate Density at z=4-6
Abstract
We present a stringent measurement of the dust-obscured star-formation rate density (SFRD) at z=4-6 from the ASPIRE JWST Cycle-1 medium and ALMA Cycle-9 large program. We obtained JWST/NIRCam grism spectroscopy and ALMA 1.2-mm continuum map along 25 independent quasar sightlines, covering a total survey area of 35 arcmin2 where we search for dusty star-forming galaxies (DSFGs) at z = 0 - 7. We identify eight DSFGs in seven fields at z=4-6 through the detection of Hα or [O III] λ5008 lines, including fainter lines such as Hβ, [O III] λ4960, [N II] λ6585, [S II] λλ6718,6733 for six sources. With this spectroscopically complete DSFG sample at z=4-6 and negligible impact from cosmic variance (shot noise), we measure the infrared luminosity function (IRLF) down to LIR 2×1011 L. We find flattening of IRLF at z=4-6 towards the faint end (power-law slope α = 0.59-0.45+0.39). We determine the dust-obscured cosmic SFRD at this epoch as [SFR,IR / (M\,yr-1\,Mpc-3)] = -1.52-0.13+0.14. This is significantly higher than previous determination using ALMA data in the Hubble Ultra Deep Field, which is void of DSFGs at z=4-6 because of strong cosmic variance (shot noise). We conclude that the majority (667%) of cosmic star formation at z 5 is still obscured by dust. We also discuss the uncertainty of SFRD propagated from far-IR spectral energy distribution and IRLF at the bright end, which will need to be resolved with future ALMA and JWST observations.
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