The brightest galaxies at cosmic dawn

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The brightest galaxies at cosmic dawn. / Mason, Charlotte A.; Trenti, Michele; Treu, Tommaso.

In: Monthly Notices of the Royal Astronomical Society, Vol. 521, No. 1, 02.03.2023, p. 497-503.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Mason, CA, Trenti, M & Treu, T 2023, 'The brightest galaxies at cosmic dawn', Monthly Notices of the Royal Astronomical Society, vol. 521, no. 1, pp. 497-503. https://doi.org/10.1093/mnras/stad035

APA

Mason, C. A., Trenti, M., & Treu, T. (2023). The brightest galaxies at cosmic dawn. Monthly Notices of the Royal Astronomical Society, 521(1), 497-503. https://doi.org/10.1093/mnras/stad035

Vancouver

Mason CA, Trenti M, Treu T. The brightest galaxies at cosmic dawn. Monthly Notices of the Royal Astronomical Society. 2023 Mar 2;521(1):497-503. https://doi.org/10.1093/mnras/stad035

Author

Mason, Charlotte A. ; Trenti, Michele ; Treu, Tommaso. / The brightest galaxies at cosmic dawn. In: Monthly Notices of the Royal Astronomical Society. 2023 ; Vol. 521, No. 1. pp. 497-503.

Bibtex

@article{09c81d2dbf274bc2a241cc6b242995a2,
title = "The brightest galaxies at cosmic dawn",
abstract = "Recent JWST observations suggest an excess of z ? 10 galaxy candidates abo v e most theoretical models. Here, we explore how the interplay between halo formation time-scales, star formation efficiency, and dust attenuation affects the properties and number densities of galaxies observed in the early Universe. To guide intuition, we calculate the theoretical upper limit on the UV luminosity function (LF), assuming star formation is 100 per cent efficient and all gas in haloes is converted into stars, and that galaxies are at the peak age for UV emission (similar to 10 Myr). This upper limit is similar to 4 orders of magnitude greater than current observations, implying no formal tension with star formation in Lambda cold dark matter cosmology. In a more realistic model, we use the distribution of halo formation time-scales derived from extended Press-Schechter theory as a proxy for star formation rate (SFR). We predict that the galaxies observed so far at z ? 10 are dominated by those with the fastest formation time-scales, and thus most extreme SFRs and young ages. These galaxies can be upscattered by similar to 1.5 mag compared to the median UV magnitude versus halo mass relation. This likely introduces a selection effect at high redshift whereby only the youngest (?0 Myr), most highly star-forming galaxies (specific SFR ? 30 Gyr (-1)) have been detected so far. Furthermore, our modelling suggests that redshift evolution at the bright end of the UV LF is substantially affected by the build-up of dust attenuation. We predict that deeper JWST observations (reaching m similar to 30) will reveal more typical galaxies with relatively older ages ( similar to 100 Myr) and less extreme specific SFRs ( similar to 10 Gyr(-1 )for a MUV similar to -20 galaxy at z similar to 10).",
keywords = "galaxies, evolution- cosmology, theory - galaxies, high-redshift, - dark ages, reionization, first stars, STAR-FORMATION HISTORIES, LYMAN-BREAK GALAXIES, EQUIVALENT WIDTH DISTRIBUTION, REMARKABLY LUMINOUS GALAXY, DARK-AGES REIONIZATION, TO 8 GALAXIES, STELLAR MASSES, FORMATION SIMULATION, NEBULAR EMISSION, MASSIVE GALAXIES",
author = "Mason, {Charlotte A.} and Michele Trenti and Tommaso Treu",
year = "2023",
month = mar,
day = "2",
doi = "10.1093/mnras/stad035",
language = "English",
volume = "521",
pages = "497--503",
journal = "Royal Astronomical Society. Monthly Notices",
issn = "0035-8711",
publisher = "Oxford University Press",
number = "1",

}

RIS

TY - JOUR

T1 - The brightest galaxies at cosmic dawn

AU - Mason, Charlotte A.

AU - Trenti, Michele

AU - Treu, Tommaso

PY - 2023/3/2

Y1 - 2023/3/2

N2 - Recent JWST observations suggest an excess of z ? 10 galaxy candidates abo v e most theoretical models. Here, we explore how the interplay between halo formation time-scales, star formation efficiency, and dust attenuation affects the properties and number densities of galaxies observed in the early Universe. To guide intuition, we calculate the theoretical upper limit on the UV luminosity function (LF), assuming star formation is 100 per cent efficient and all gas in haloes is converted into stars, and that galaxies are at the peak age for UV emission (similar to 10 Myr). This upper limit is similar to 4 orders of magnitude greater than current observations, implying no formal tension with star formation in Lambda cold dark matter cosmology. In a more realistic model, we use the distribution of halo formation time-scales derived from extended Press-Schechter theory as a proxy for star formation rate (SFR). We predict that the galaxies observed so far at z ? 10 are dominated by those with the fastest formation time-scales, and thus most extreme SFRs and young ages. These galaxies can be upscattered by similar to 1.5 mag compared to the median UV magnitude versus halo mass relation. This likely introduces a selection effect at high redshift whereby only the youngest (?0 Myr), most highly star-forming galaxies (specific SFR ? 30 Gyr (-1)) have been detected so far. Furthermore, our modelling suggests that redshift evolution at the bright end of the UV LF is substantially affected by the build-up of dust attenuation. We predict that deeper JWST observations (reaching m similar to 30) will reveal more typical galaxies with relatively older ages ( similar to 100 Myr) and less extreme specific SFRs ( similar to 10 Gyr(-1 )for a MUV similar to -20 galaxy at z similar to 10).

AB - Recent JWST observations suggest an excess of z ? 10 galaxy candidates abo v e most theoretical models. Here, we explore how the interplay between halo formation time-scales, star formation efficiency, and dust attenuation affects the properties and number densities of galaxies observed in the early Universe. To guide intuition, we calculate the theoretical upper limit on the UV luminosity function (LF), assuming star formation is 100 per cent efficient and all gas in haloes is converted into stars, and that galaxies are at the peak age for UV emission (similar to 10 Myr). This upper limit is similar to 4 orders of magnitude greater than current observations, implying no formal tension with star formation in Lambda cold dark matter cosmology. In a more realistic model, we use the distribution of halo formation time-scales derived from extended Press-Schechter theory as a proxy for star formation rate (SFR). We predict that the galaxies observed so far at z ? 10 are dominated by those with the fastest formation time-scales, and thus most extreme SFRs and young ages. These galaxies can be upscattered by similar to 1.5 mag compared to the median UV magnitude versus halo mass relation. This likely introduces a selection effect at high redshift whereby only the youngest (?0 Myr), most highly star-forming galaxies (specific SFR ? 30 Gyr (-1)) have been detected so far. Furthermore, our modelling suggests that redshift evolution at the bright end of the UV LF is substantially affected by the build-up of dust attenuation. We predict that deeper JWST observations (reaching m similar to 30) will reveal more typical galaxies with relatively older ages ( similar to 100 Myr) and less extreme specific SFRs ( similar to 10 Gyr(-1 )for a MUV similar to -20 galaxy at z similar to 10).

KW - galaxies

KW - evolution- cosmology

KW - theory - galaxies

KW - high-redshift

KW - - dark ages

KW - reionization

KW - first stars

KW - STAR-FORMATION HISTORIES

KW - LYMAN-BREAK GALAXIES

KW - EQUIVALENT WIDTH DISTRIBUTION

KW - REMARKABLY LUMINOUS GALAXY

KW - DARK-AGES REIONIZATION

KW - TO 8 GALAXIES

KW - STELLAR MASSES

KW - FORMATION SIMULATION

KW - NEBULAR EMISSION

KW - MASSIVE GALAXIES

U2 - 10.1093/mnras/stad035

DO - 10.1093/mnras/stad035

M3 - Journal article

VL - 521

SP - 497

EP - 503

JO - Royal Astronomical Society. Monthly Notices

JF - Royal Astronomical Society. Monthly Notices

SN - 0035-8711

IS - 1

ER -

ID: 344975958