Probing the Nature of the First Galaxies with JWST and ALMA

Rossi, M. E. De

doi:10.3847/2041-8213/acc32e

ApJL

2023

DOI: 10.3847/2041-8213/acc32e

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Probing the Nature of the First Galaxies with JWST and ALMA

M. E. De Rossi

Abstract: By implementing a model of primordial dust emission, we predict dust-continuum fluxes for massive galaxy sources similar to those recently detected by James Webb Space Telescope (JWST) at z ≳ 7. Current upper flux limits, obtained with Atacama Large Millimeter/submillimeter Array (ALMA) for some of these sources, can constrain the gas metallicity and dust fraction of the first galaxies. Encouragingly, if assuming expected properties for typical first galaxies (i.e., dust-to-metal mass ratio: D/M = 5 × 10−3, ga… Show more

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Cited by 3 publications

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The eventful life of GS-z14-0, the most distant galaxy at redshift z = 14.32

Ferrara

2024

A&A

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We developed a model for the star formation history (SFH) of super-early galaxies and applied it to GS-z14-0, the most distant galaxy known, located at $z=14.32$ (294 million years after the Big Bang). The SFH, starting at $z=26.7$, is complex. Initially ($z>18$), the galaxy experiences feedback-regulated phases that are bursty, relatively faint (reaching $M_ UV =-18.4$), and unattenuated. When dust shielding allows for a smooth star formation rate (SFR), the galaxy quickly becomes heavily obscured. During this obscured phase, which lasts for approximately 20<!PCT!> of the total star-forming time, 70<!PCT!> of the observed stars are formed. Super-early galaxies in this phase should be detectable by ALMA. Twenty-six million years before observation, as the galaxy becomes super-Eddington, a powerful radiation-driven outflow clears most of the dust and significantly reduces the SFR by a factor of seven, from $100 The galaxy transitions into a "blue monster" dominating the bright end of the UV luminosity function. When the outflow ceases due to decreased dust opacity, the galaxy relaxes into a post-starburst phase, in which it is currently observed. Our model accurately reproduces all the observed and inferred properties of the galaxy. The analysis of this extreme system opens exciting opportunities for studying the beginnings of the luminous Universe.

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The eventful life of GS-z14-0, the most distant galaxy at redshift z = 14.32

Ferrara

2024

A&A

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Dust in high-redshift galaxies: reconciling UV attenuation and IR emission

Zhao,

Furlanetto

2024

J. Cosmol. Astropart. Phys.

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Dust is a key component of galaxies, but its properties during the earliest eras of structure formation remain elusive. Here we present a simple semi-analytic model of the dust distribution in galaxies atz≳ 5. We calibrate the free parameters of this model to estimates of the UV attenuation (using the IRX-βrelation between infrared emission and the UV spectral slope) and to ALMA measurements of dust emission. We find that the observed dust emission requires that most of the dust expected in these galaxies is retained (assuming a similar yield to lower-redshift sources), but if the dust is spherically distributed, the modest attenuation requires that it be significantly more extended than the stars. Interestingly, the retention fraction is larger for less massive galaxies in our model. However, the required radius is a significant fraction of the host's virial radius and is larger than the estimated extent of dust emission from stacked high-zgalaxies. These can be reconciled if the dust is distributed anisotropically, with typical covering fractions of ∼ 0.2–0.7 in bright galaxies and ≲ 0.1 in fainter ones.

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The dust enrichment of early galaxies in the JWST and ALMA era

Mauerhofer,

Dayal

2023

Monthly Notices of the Royal Astronomical Society

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Recent observations with the JWST are yielding tantalizing hints of an early population of massive, bright galaxies at z > 10, with Atacama Large Millimeter/submillimeter Array (ALMA) observations indicating significant dust masses as early as z ∼ 7. To understand the implications of these observations, we use the delphi semi-analytic model that jointly tracks the assembly of dark matter haloes and their baryons, including the key processes of dust enrichment. Our model employs only two redshift- and mass-independent free parameters (the maximum star formation efficiency and the fraction of supernova energy that couples to gas) that are tuned against all available galaxy data at z ∼ 5–9 before it is used to make predictions up to z ∼ 20. Our key results are: (i) the model underpredicts the observed ultraviolet luminosity function (UV LF) at z > 12, observations at z > 16 lie close to, or even above, a ‘maximal’ model where all available gas is turned into stars; (ii) UV selection would miss 34 per cent of the star formation rate density at z ∼ 5, decreasing to 17 per cent by z ∼ 10 for bright galaxies with ${M_{\rm UV}} \lt {-}19$; (iii) the dust mass (Md) evolves with the stellar mass (M*) and redshift as log (Md) = 1.194 log (M*) + 0.0975z − 5.433; (iv) the dust temperature increases with stellar mass, ranging between 30 and 33 K for M* ∼ 109–11 M⊙ galaxies at z ∼ 7. Finally, we predict the far-infrared LF at z ∼ 5–20, testable with ALMA observations, and caution that spectroscopic redshifts and dust masses must be pinned down before invoking unphysical extrema in galaxy formation models.

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Probing the Nature of the First Galaxies with JWST and ALMA

Cited by 3 publications

References 40 publications

The eventful life of GS-z14-0, the most distant galaxy at redshift z = 14.32

The eventful life of GS-z14-0, the most distant galaxy at redshift z = 14.32

Dust in high-redshift galaxies: reconciling UV attenuation and IR emission

The dust enrichment of early galaxies in the JWST and ALMA era

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