Efficient formation of a massive quiescent galaxy at redshift 4.9

Anna de Graaff; David J. Setton; Gabriel Brammer; Sam Cutler; Katherine A. Suess; Ivo Labbé; Joel Leja; Andrea Weibel; Michael V. Maseda; Katherine E. Whitaker; Rachel Bezanson; Leindert A. Boogaard; Nikko J. Cleri; Gabriella De Lucia; Marijn Franx; Jenny E. Greene; Michaela Hirschmann; Jorryt Matthee; Ian McConachie; Rohan P. Naidu; Pascal A. Oesch; Sedona H. Price; Hans Walter Rix; Francesco Valentino; Bingjie Wang; Christina C. Williams

doi:10.1038/s41550-024-02424-3

Efficient formation of a massive quiescent galaxy at redshift 4.9

Anna de Graaff, David J. Setton, Gabriel Brammer, Sam Cutler, Katherine A. Suess, Ivo Labbé, Joel Leja, Andrea Weibel, Michael V. Maseda, Katherine E. Whitaker, Rachel Bezanson, Leindert A. Boogaard, Nikko J. Cleri, Gabriella De Lucia, Marijn Franx, Jenny E. Greene, Michaela Hirschmann, Jorryt Matthee, Ian McConachie, Rohan P. NaiduPascal A. Oesch, Sedona H. Price, Hans Walter Rix, Francesco Valentino, Bingjie Wang, Christina C. Williams

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

11 Scopus citations

Abstract

Within the established framework of structure formation, galaxies start as systems of low stellar mass and gradually grow into far more massive galaxies. The existence of massive galaxies in the first billion years of the Universe, as suggested by recent observations, seems to challenge this model, as such galaxies would require highly efficient conversion of baryons into stars. An even greater challenge in this epoch is the existence of massive galaxies that have already ceased forming stars. However, robust detections of early massive quiescent galaxies have been challenging due to the coarse wavelength sampling of photometric surveys. Here we report the spectroscopic confirmation with the James Webb Space Telescope of the quiescent galaxy RUBIES-EGS-QG-1 at redshift z = 4.90, 1.2 billion years after the Big Bang. Deep stellar absorption features in the spectrum reveal that the stellar mass of the galaxy of 10¹¹ M_⊙ formed in a short 200 Myr burst of star formation, after which star formation activity dropped rapidly and persistently. According to current galaxy formation models, systems with such rapid stellar mass growth and early quenching are too rare to plausibly occur in the small area probed spectroscopically with JWST. Instead, the discovery of RUBIES-EGS-QG-1 implies that early massive quiescent galaxies can be quenched earlier or exhaust gas available for star formation more efficiently than assumed at present.

Original language	English (US)
Article number	3724
Pages (from-to)	280-292
Number of pages	13
Journal	Nature Astronomy
Volume	9
Issue number	2
DOIs	https://doi.org/10.1038/s41550-024-02424-3
State	Published - Feb 2025
Externally published	Yes

ASJC Scopus subject areas

Astronomy and Astrophysics

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de Graaff, A., Setton, D. J., Brammer, G., Cutler, S., Suess, K. A., Labbé, I., Leja, J., Weibel, A., Maseda, M. V., Whitaker, K. E., Bezanson, R., Boogaard, L. A., Cleri, N. J., De Lucia, G., Franx, M., Greene, J. E., Hirschmann, M., Matthee, J., McConachie, I., ... Williams, C. C. (2025). Efficient formation of a massive quiescent galaxy at redshift 4.9. Nature Astronomy, 9(2), 280-292. Article 3724. https://doi.org/10.1038/s41550-024-02424-3

de Graaff, A, Setton, DJ, Brammer, G, Cutler, S, Suess, KA, Labbé, I, Leja, J, Weibel, A, Maseda, MV, Whitaker, KE, Bezanson, R, Boogaard, LA, Cleri, NJ, De Lucia, G, Franx, M, Greene, JE, Hirschmann, M, Matthee, J, McConachie, I, Naidu, RP, Oesch, PA, Price, SH, Rix, HW, Valentino, F, Wang, B & Williams, CC 2025, 'Efficient formation of a massive quiescent galaxy at redshift 4.9', Nature Astronomy, vol. 9, no. 2, 3724, pp. 280-292. https://doi.org/10.1038/s41550-024-02424-3

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title = "Efficient formation of a massive quiescent galaxy at redshift 4.9",

abstract = "Within the established framework of structure formation, galaxies start as systems of low stellar mass and gradually grow into far more massive galaxies. The existence of massive galaxies in the first billion years of the Universe, as suggested by recent observations, seems to challenge this model, as such galaxies would require highly efficient conversion of baryons into stars. An even greater challenge in this epoch is the existence of massive galaxies that have already ceased forming stars. However, robust detections of early massive quiescent galaxies have been challenging due to the coarse wavelength sampling of photometric surveys. Here we report the spectroscopic confirmation with the James Webb Space Telescope of the quiescent galaxy RUBIES-EGS-QG-1 at redshift z = 4.90, 1.2 billion years after the Big Bang. Deep stellar absorption features in the spectrum reveal that the stellar mass of the galaxy of 1011 M⊙ formed in a short 200 Myr burst of star formation, after which star formation activity dropped rapidly and persistently. According to current galaxy formation models, systems with such rapid stellar mass growth and early quenching are too rare to plausibly occur in the small area probed spectroscopically with JWST. Instead, the discovery of RUBIES-EGS-QG-1 implies that early massive quiescent galaxies can be quenched earlier or exhaust gas available for star formation more efficiently than assumed at present.",

author = "{de Graaff}, Anna and Setton, {David J.} and Gabriel Brammer and Sam Cutler and Suess, {Katherine A.} and Ivo Labb{\'e} and Joel Leja and Andrea Weibel and Maseda, {Michael V.} and Whitaker, {Katherine E.} and Rachel Bezanson and Boogaard, {Leindert A.} and Cleri, {Nikko J.} and {De Lucia}, Gabriella and Marijn Franx and Greene, {Jenny E.} and Michaela Hirschmann and Jorryt Matthee and Ian McConachie and Naidu, {Rohan P.} and Oesch, {Pascal A.} and Price, {Sedona H.} and Rix, {Hans Walter} and Francesco Valentino and Bingjie Wang and Williams, {Christina C.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2025",

month = feb,

doi = "10.1038/s41550-024-02424-3",

language = "English (US)",

volume = "9",

pages = "280--292",

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T1 - Efficient formation of a massive quiescent galaxy at redshift 4.9

AU - de Graaff, Anna

AU - Setton, David J.

AU - Brammer, Gabriel

AU - Cutler, Sam

AU - Suess, Katherine A.

AU - Labbé, Ivo

AU - Leja, Joel

AU - Weibel, Andrea

AU - Maseda, Michael V.

AU - Whitaker, Katherine E.

AU - Bezanson, Rachel

AU - Boogaard, Leindert A.

AU - Cleri, Nikko J.

AU - De Lucia, Gabriella

AU - Franx, Marijn

AU - Greene, Jenny E.

AU - Hirschmann, Michaela

AU - Matthee, Jorryt

AU - McConachie, Ian

AU - Naidu, Rohan P.

AU - Oesch, Pascal A.

AU - Price, Sedona H.

AU - Rix, Hans Walter

AU - Valentino, Francesco

AU - Wang, Bingjie

AU - Williams, Christina C.

PY - 2025/2

Y1 - 2025/2

N2 - Within the established framework of structure formation, galaxies start as systems of low stellar mass and gradually grow into far more massive galaxies. The existence of massive galaxies in the first billion years of the Universe, as suggested by recent observations, seems to challenge this model, as such galaxies would require highly efficient conversion of baryons into stars. An even greater challenge in this epoch is the existence of massive galaxies that have already ceased forming stars. However, robust detections of early massive quiescent galaxies have been challenging due to the coarse wavelength sampling of photometric surveys. Here we report the spectroscopic confirmation with the James Webb Space Telescope of the quiescent galaxy RUBIES-EGS-QG-1 at redshift z = 4.90, 1.2 billion years after the Big Bang. Deep stellar absorption features in the spectrum reveal that the stellar mass of the galaxy of 1011 M⊙ formed in a short 200 Myr burst of star formation, after which star formation activity dropped rapidly and persistently. According to current galaxy formation models, systems with such rapid stellar mass growth and early quenching are too rare to plausibly occur in the small area probed spectroscopically with JWST. Instead, the discovery of RUBIES-EGS-QG-1 implies that early massive quiescent galaxies can be quenched earlier or exhaust gas available for star formation more efficiently than assumed at present.

AB - Within the established framework of structure formation, galaxies start as systems of low stellar mass and gradually grow into far more massive galaxies. The existence of massive galaxies in the first billion years of the Universe, as suggested by recent observations, seems to challenge this model, as such galaxies would require highly efficient conversion of baryons into stars. An even greater challenge in this epoch is the existence of massive galaxies that have already ceased forming stars. However, robust detections of early massive quiescent galaxies have been challenging due to the coarse wavelength sampling of photometric surveys. Here we report the spectroscopic confirmation with the James Webb Space Telescope of the quiescent galaxy RUBIES-EGS-QG-1 at redshift z = 4.90, 1.2 billion years after the Big Bang. Deep stellar absorption features in the spectrum reveal that the stellar mass of the galaxy of 1011 M⊙ formed in a short 200 Myr burst of star formation, after which star formation activity dropped rapidly and persistently. According to current galaxy formation models, systems with such rapid stellar mass growth and early quenching are too rare to plausibly occur in the small area probed spectroscopically with JWST. Instead, the discovery of RUBIES-EGS-QG-1 implies that early massive quiescent galaxies can be quenched earlier or exhaust gas available for star formation more efficiently than assumed at present.

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ER -

Efficient formation of a massive quiescent galaxy at redshift 4.9

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