Earliest Galaxies in the JADES Origins Field: Luminosity Function and Cosmic Star Formation Rate Density 300 Myr after the Big Bang

Author:

Robertson BrantORCID,Johnson Benjamin D.ORCID,Tacchella SandroORCID,Eisenstein Daniel J.ORCID,Hainline KevinORCID,Arribas SantiagoORCID,Baker William M.ORCID,Bunker Andrew J.ORCID,Carniani StefanoORCID,Cargile Phillip A.ORCID,Carreira CourtneyORCID,Charlot StephaneORCID,Chevallard JacopoORCID,Curti MirkoORCID,Curtis-Lake EmmaORCID,D’Eugenio FrancescoORCID,Egami EiichiORCID,Hausen RyanORCID,Helton Jakob M.ORCID,Jakobsen PeterORCID,Ji ZhiyuanORCID,Jones Gareth C.ORCID,Maiolino RobertoORCID,Maseda Michael V.ORCID,Nelson EricaORCID,Pérez-González Pablo G.ORCID,Puskás DávidORCID,Rieke MarciaORCID,Smit RenskeORCID,Sun FengwuORCID,Übler HannahORCID,Whitler LilyORCID,Williams Christina C.ORCID,Willmer Christopher N. A.ORCID,Willott ChrisORCID,Witstok JorisORCID

Abstract

Abstract We characterize the earliest galaxy population in the JADES Origins Field, the deepest imaging field observed with JWST. We make use of ancillary Hubble Space Telescope optical images (five filters spanning 0.4–0.9 μm) and novel JWST images with 14 filters spanning 0.8−5 μm, including seven medium-band filters, and reaching total exposure times of up to 46 hr per filter. We combine all our data at >2.3 μm to construct an ultradeep image, reaching as deep as ≈31.4 AB mag in the stack and 30.3–31.0 AB mag (5σ, r = 0.″1 circular aperture) in individual filters. We measure photometric redshifts and use robust selection criteria to identify a sample of eight galaxy candidates at redshifts z = 11.5−15. These objects show compact half-light radii of R 1/2 ∼ 50−200 pc, stellar masses of M ∼ 107−108 M , and star formation rates ∼ 0.1−1 M yr−1. Our search finds no candidates at 15 < z < 20, placing upper limits at these redshifts. We develop a forward-modeling approach to infer the properties of the evolving luminosity function without binning in redshift or luminosity that marginalizes over the photometric redshift uncertainty of our candidate galaxies and incorporates the impact of nondetections. We find a z = 12 luminosity function in good agreement with prior results, and that the luminosity function normalization and UV luminosity density decline by a factor of ∼2.5 from z = 12 to z = 14. We discuss the possible implications of our results in the context of theoretical models for evolution of the dark matter halo mass function.

Funder

NASA

NSF

Publisher

American Astronomical Society

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