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. 2024 Nov;635(8038):311-315.
doi: 10.1038/s41586-024-08094-5. Epub 2024 Nov 13.

Accelerated formation of ultra-massive galaxies in the first billion years

Mengyuan Xiao  1 Pascal A Oesch  2   3 David Elbaz  4 Longji Bing  5 Erica J Nelson  6 Andrea Weibel  2 Garth D Illingworth  7 Pieter van Dokkum  8 Rohan P Naidu  9 Emanuele Daddi  4 Rychard J Bouwens  10 Jorryt Matthee  11 Stijn Wuyts  12 John Chisholm  13 Gabriel Brammer  3 Mark Dickinson  14 Benjamin Magnelli  4 Lucas Leroy  4 Daniel Schaerer  2 Thomas Herard-Demanche  10 Seunghwan Lim  15   16 Laia Barrufet  2 Ryan Endsley  13 Yoshinobu Fudamoto  17   18 Carlos Gómez-Guijarro  4 Rashmi Gottumukkala  2 Ivo Labbé  19 Dan Magee  7 Danilo Marchesini  20 Michael Maseda  21 Yuxiang Qin  22   23 Naveen A Reddy  24 Alice Shapley  25 Irene Shivaei  26 Marko Shuntov  3 Mauro Stefanon  27   28 Katherine E Whitaker  3   29 J Stuart B Wyithe  22   23
Affiliations

Accelerated formation of ultra-massive galaxies in the first billion years

Mengyuan Xiao et al. Nature. 2024 Nov.

Abstract

Recent James Webb Space Telescope (JWST) observations have revealed an unexpected abundance of massive-galaxy candidates in the early Universe, extending further in redshift and to lower luminosity than what had previously been found by submillimetre surveys1-6. These JWST candidates have been interpreted as challenging the Λ cold dark-matter cosmology (where Λ is the cosmological constant)7-9, but, so far, these studies have mostly relied on only rest-frame ultraviolet data and have lacked spectroscopic confirmation of their redshifts10-16. Here we report a systematic study of 36 massive dust-obscured galaxies with spectroscopic redshifts between 5 and 9 from the JWST FRESCO survey. We find no tension with the Λ cold dark-matter model in our sample. However, three ultra-massive galaxies (logM/M ≳ 11.0, where M is the stellar mass and M is the mass of the Sun) require an exceptional fraction of 50 per cent of baryons converted into stars-two to three times higher than the most efficient galaxies at later epochs. The contribution from an active galactic nucleus is unlikely because of their extended emission. Ultra-massive galaxies account for as much as 17 per cent of the total cosmic star-formation-rate density17 at redshifts between about five and six.

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Conflict of interest statement

Competing interests The authors declare no competing interests.

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