Disappearing Galaxies: The Orientation Dependence of JWST-bright, HST-dark, Star-forming Galaxy Selection

Disappearing Galaxies: The Orientation Dependence of JWST-bright, HST-dark, Star-forming Galaxy Selection

Galaxies that are invisible in deep optical–near-infrared imaging but detected at longer wavelengths have been the focus of several recent observational studies, with speculation that they could constitute a substantial missing population and even dominate the cosmic star formation rate density at z...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 961; no. 1; pp. 37 - 45
Main Authors: Cochrane, R. K., Anglés-Alcázar, D., Cullen, F., Hayward, C. C.
Format: Journal Article
Language:English
Published: Philadelphia The American Astronomical Society 01-01-2024
IOP Publishing
Subjects:
Astrophysics
Criteria
Dust
Galaxies
Galaxy evolution
High-redshift galaxies
Hubble Space Telescope
Infrared imaging
James Webb Space Telescope
Line of sight
Modelling
Observational studies
Radiative transfer
Radiative transfer simulations
Red shift
Simulation
Space telescopes
Star & galaxy formation
Star formation
Star formation rate
Stars
Stars & galaxies
Wavelengths
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Summary:Galaxies that are invisible in deep optical–near-infrared imaging but detected at longer wavelengths have been the focus of several recent observational studies, with speculation that they could constitute a substantial missing population and even dominate the cosmic star formation rate density at z ≳ 4. The depths now achievable with JWST at the longest wavelengths probed by the Hubble Space Telescope (HST), coupled with the transformative resolution at longer wavelengths, are already enabling detailed, spatially resolved characterization of sources that were invisible to HST, often known as “HST-dark” galaxies. However, until now, there has been little theoretical work to compare against. We present the first simulation-based study of this population, using highly resolved galaxies from the Feedback in Realistic Environments project, with multiwavelength images along several lines of sight forward-modeled using radiative transfer. We naturally recover a population of modeled sources that meet commonly used selection criteria ( H AB > 27 mag and H AB − F444W > 2.3). These simulated HST-dark galaxies lie at high redshifts ( z = 4–7), have high levels of dust attenuation ( A V = 2–4), and display compact recent star formation ( R 1/2,4.4 μ m ≲ 1 kpc). Orientation is very important: for all but one of the 17 simulated galaxy snapshots with HST-dark sight lines, there exist other sight lines that do not meet the criteria. This result has important implications for comparisons between observations and models that do not resolve the detailed star-dust geometry, such as semianalytic models or coarsely resolved hydrodynamical simulations. Critically, we demonstrate that HST-dark sources are not an unexpected or exotic population, but a subset of high-redshift, highly dust-attenuated sources viewed along certain lines of sight.
Bibliography:AAS47792
Galaxies and Cosmology
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ad02f8