The abundance and nature of high-redshift quiescent galaxies from JADES spectroscopy and the FLAMINGO simulations

William M. Baker; Seunghwan Lim; Francesco D’Eugenio; Roberto Maiolino; Zhiyuan Ji; Santiago Arribas; Andrew J. Bunker; Stefano Carniani; Stephane Charlot; Anna de Graaff; Kevin Hainline; Tobias J. Looser; Jianwei Lyu; Pierluigi Rinaldi; Brant Robertson; Matthieu Schaller; Joop Schaye; Jan Scholtz; Hannah Übler; Christina C. Williams; Christopher N.A. Willmer; Chris Willott; Yongda Zhu

doi:10.1093/mnras/staf475

The abundance and nature of high-redshift quiescent galaxies from JADES spectroscopy and the FLAMINGO simulations

William M. Baker, Seunghwan Lim, Francesco D’Eugenio, Roberto Maiolino, Zhiyuan Ji, Santiago Arribas, Andrew J. Bunker, Stefano Carniani, Stephane Charlot, Anna de Graaff, Kevin Hainline, Tobias J. Looser, Jianwei Lyu, Pierluigi Rinaldi, Brant Robertson, Matthieu Schaller, Joop Schaye, Jan Scholtz, Hannah Übler, Christina C. WilliamsChristopher N.A. Willmer, Chris Willott, Yongda Zhu

Steward Observatory

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We use NIRSpec/MSA (Micro Shutter Assembly) spectroscopy and NIRCam (Near-Infrared Camera) imaging to study a sample of 18 massive (log M_*/M_☉ > 10 dex), central quiescent galaxies at 2 ≤ z ≤ 5 in the GOODS (Great Observatories Origins Deep Survey) fields, to investigate their number density, star formation histories, quenching time-scales, and incidence of active galactic nuclei (AGN). The data depth reaches log M_*/M_☉ ≈ 9 dex, yet the least-massive central quiescent galaxy found has log M_*/M_☉ > 10 dex, suggesting that quenching is regulated by a physical quantity that scales with M_*. With spectroscopy, we assess the completeness and purity of photometric samples, finding number densities 10 times higher than predicted by galaxy formation models, confirming earlier photometric studies. We compare our number densities to predictions from FLAMINGO (Full-Hydro Large-scale Structure Simulations with All-sky Mapping for the Interpretation of Next Generation Observations), the largest box full-hydro-simulation suite to date. We rule-out cosmic variance at the 3σ level, providing spectroscopic confirmation that galaxy formation models do not match observations at z > 3. Using FLAMINGO, we find that the vast majority of quiescent galaxies’ stars formed in situ, with these galaxies not having undergone multiple major dry mergers. This is in agreement with the compact observed size of these systems and suggests that major mergers are not a viable channel for quenching most massive galaxies. Several of our observed galaxies are old, with four displaying 4000 Å breaks with formation and quenching redshifts of z ≥ 8 and ≥ 6. Using tracers, we find that eight galaxies host AGN, including old systems, suggesting a high AGN duty cycle with a continuing trickle of gas to fuel accretion.

Original language	English (US)
Pages (from-to)	557-589
Number of pages	33
Journal	Monthly Notices of the Royal Astronomical Society
Volume	539
Issue number	1
DOIs	https://doi.org/10.1093/mnras/staf475
State	Published - May 1 2025

Keywords

galaxies: active
galaxies: elliptical and lenticular, cD
galaxies: evolution
galaxies: formation
galaxies: high-redshift
galaxies: star formation

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnras/staf475

Cite this

Baker, W. M., Lim, S., D’Eugenio, F., Maiolino, R., Ji, Z., Arribas, S., Bunker, A. J., Carniani, S., Charlot, S., de Graaff, A., Hainline, K., Looser, T. J., Lyu, J., Rinaldi, P., Robertson, B., Schaller, M., Schaye, J., Scholtz, J., Übler, H., ... Zhu, Y. (2025). The abundance and nature of high-redshift quiescent galaxies from JADES spectroscopy and the FLAMINGO simulations. Monthly Notices of the Royal Astronomical Society, 539(1), 557-589. https://doi.org/10.1093/mnras/staf475

Baker, WM, Lim, S, D’Eugenio, F, Maiolino, R, Ji, Z, Arribas, S, Bunker, AJ, Carniani, S, Charlot, S, de Graaff, A, Hainline, K, Looser, TJ, Lyu, J, Rinaldi, P, Robertson, B, Schaller, M, Schaye, J, Scholtz, J, Übler, H, Williams, CC , Willmer, CNA, Willott, C & Zhu, Y 2025, 'The abundance and nature of high-redshift quiescent galaxies from JADES spectroscopy and the FLAMINGO simulations', Monthly Notices of the Royal Astronomical Society, vol. 539, no. 1, pp. 557-589. https://doi.org/10.1093/mnras/staf475

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title = "The abundance and nature of high-redshift quiescent galaxies from JADES spectroscopy and the FLAMINGO simulations",

abstract = "We use NIRSpec/MSA (Micro Shutter Assembly) spectroscopy and NIRCam (Near-Infrared Camera) imaging to study a sample of 18 massive (log M*/M☉ > 10 dex), central quiescent galaxies at 2 ≤ z ≤ 5 in the GOODS (Great Observatories Origins Deep Survey) fields, to investigate their number density, star formation histories, quenching time-scales, and incidence of active galactic nuclei (AGN). The data depth reaches log M*/M☉ ≈ 9 dex, yet the least-massive central quiescent galaxy found has log M*/M☉ > 10 dex, suggesting that quenching is regulated by a physical quantity that scales with M*. With spectroscopy, we assess the completeness and purity of photometric samples, finding number densities 10 times higher than predicted by galaxy formation models, confirming earlier photometric studies. We compare our number densities to predictions from FLAMINGO (Full-Hydro Large-scale Structure Simulations with All-sky Mapping for the Interpretation of Next Generation Observations), the largest box full-hydro-simulation suite to date. We rule-out cosmic variance at the 3σ level, providing spectroscopic confirmation that galaxy formation models do not match observations at z > 3. Using FLAMINGO, we find that the vast majority of quiescent galaxies{\textquoteright} stars formed in situ, with these galaxies not having undergone multiple major dry mergers. This is in agreement with the compact observed size of these systems and suggests that major mergers are not a viable channel for quenching most massive galaxies. Several of our observed galaxies are old, with four displaying 4000 {\AA} breaks with formation and quenching redshifts of z ≥ 8 and ≥ 6. Using tracers, we find that eight galaxies host AGN, including old systems, suggesting a high AGN duty cycle with a continuing trickle of gas to fuel accretion.",

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author = "Baker, {William M.} and Seunghwan Lim and Francesco D{\textquoteright}Eugenio and Roberto Maiolino and Zhiyuan Ji and Santiago Arribas and Bunker, {Andrew J.} and Stefano Carniani and Stephane Charlot and {de Graaff}, Anna and Kevin Hainline and Looser, {Tobias J.} and Jianwei Lyu and Pierluigi Rinaldi and Brant Robertson and Matthieu Schaller and Joop Schaye and Jan Scholtz and Hannah {\"U}bler and Williams, {Christina C.} and Willmer, {Christopher N.A.} and Chris Willott and Yongda Zhu",

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doi = "10.1093/mnras/staf475",

language = "English (US)",

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T1 - The abundance and nature of high-redshift quiescent galaxies from JADES spectroscopy and the FLAMINGO simulations

AU - Baker, William M.

AU - Lim, Seunghwan

AU - D’Eugenio, Francesco

AU - Maiolino, Roberto

AU - Ji, Zhiyuan

AU - Arribas, Santiago

AU - Bunker, Andrew J.

AU - Carniani, Stefano

AU - Charlot, Stephane

AU - de Graaff, Anna

AU - Hainline, Kevin

AU - Looser, Tobias J.

AU - Lyu, Jianwei

AU - Rinaldi, Pierluigi

AU - Robertson, Brant

AU - Schaller, Matthieu

AU - Schaye, Joop

AU - Scholtz, Jan

AU - Übler, Hannah

AU - Williams, Christina C.

AU - Willmer, Christopher N.A.

AU - Willott, Chris

AU - Zhu, Yongda

PY - 2025/5/1

Y1 - 2025/5/1

N2 - We use NIRSpec/MSA (Micro Shutter Assembly) spectroscopy and NIRCam (Near-Infrared Camera) imaging to study a sample of 18 massive (log M*/M☉ > 10 dex), central quiescent galaxies at 2 ≤ z ≤ 5 in the GOODS (Great Observatories Origins Deep Survey) fields, to investigate their number density, star formation histories, quenching time-scales, and incidence of active galactic nuclei (AGN). The data depth reaches log M*/M☉ ≈ 9 dex, yet the least-massive central quiescent galaxy found has log M*/M☉ > 10 dex, suggesting that quenching is regulated by a physical quantity that scales with M*. With spectroscopy, we assess the completeness and purity of photometric samples, finding number densities 10 times higher than predicted by galaxy formation models, confirming earlier photometric studies. We compare our number densities to predictions from FLAMINGO (Full-Hydro Large-scale Structure Simulations with All-sky Mapping for the Interpretation of Next Generation Observations), the largest box full-hydro-simulation suite to date. We rule-out cosmic variance at the 3σ level, providing spectroscopic confirmation that galaxy formation models do not match observations at z > 3. Using FLAMINGO, we find that the vast majority of quiescent galaxies’ stars formed in situ, with these galaxies not having undergone multiple major dry mergers. This is in agreement with the compact observed size of these systems and suggests that major mergers are not a viable channel for quenching most massive galaxies. Several of our observed galaxies are old, with four displaying 4000 Å breaks with formation and quenching redshifts of z ≥ 8 and ≥ 6. Using tracers, we find that eight galaxies host AGN, including old systems, suggesting a high AGN duty cycle with a continuing trickle of gas to fuel accretion.

AB - We use NIRSpec/MSA (Micro Shutter Assembly) spectroscopy and NIRCam (Near-Infrared Camera) imaging to study a sample of 18 massive (log M*/M☉ > 10 dex), central quiescent galaxies at 2 ≤ z ≤ 5 in the GOODS (Great Observatories Origins Deep Survey) fields, to investigate their number density, star formation histories, quenching time-scales, and incidence of active galactic nuclei (AGN). The data depth reaches log M*/M☉ ≈ 9 dex, yet the least-massive central quiescent galaxy found has log M*/M☉ > 10 dex, suggesting that quenching is regulated by a physical quantity that scales with M*. With spectroscopy, we assess the completeness and purity of photometric samples, finding number densities 10 times higher than predicted by galaxy formation models, confirming earlier photometric studies. We compare our number densities to predictions from FLAMINGO (Full-Hydro Large-scale Structure Simulations with All-sky Mapping for the Interpretation of Next Generation Observations), the largest box full-hydro-simulation suite to date. We rule-out cosmic variance at the 3σ level, providing spectroscopic confirmation that galaxy formation models do not match observations at z > 3. Using FLAMINGO, we find that the vast majority of quiescent galaxies’ stars formed in situ, with these galaxies not having undergone multiple major dry mergers. This is in agreement with the compact observed size of these systems and suggests that major mergers are not a viable channel for quenching most massive galaxies. Several of our observed galaxies are old, with four displaying 4000 Å breaks with formation and quenching redshifts of z ≥ 8 and ≥ 6. Using tracers, we find that eight galaxies host AGN, including old systems, suggesting a high AGN duty cycle with a continuing trickle of gas to fuel accretion.

KW - galaxies: active

KW - galaxies: elliptical and lenticular, cD

KW - galaxies: evolution

KW - galaxies: formation

KW - galaxies: high-redshift

KW - galaxies: star formation

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The abundance and nature of high-redshift quiescent galaxies from JADES spectroscopy and the FLAMINGO simulations

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