Galaxy formation and evolution

WISDOM project XX -- Strong shear tearing molecular clouds apart in NGC 524

(2024)

Authors:

Anan Lu, Daryl Haggard, Martin Bureau, Jindra Gensior, Sarah Jeffreson, Carmelle Robert, Thomas G Williams, Fu-Heng Liang, Woorak Choi, Timothy A Davis, Sara Babic, Hope Boyce, Benjamin Cheung, Laurent Drissen, Jacob S Elford, Lijie Liu, Thomas Martin, Carter Rhea, Laurie Rousseau-Nepton, Ilaria Ruffa

Author Correction: A small and vigorous black hole in the early Universe.

Nature 630:8015 (2024) E2

Authors:

Roberto Maiolino, Jan Scholtz, Joris Witstok, Stefano Carniani, Francesco D'Eugenio, Anna de Graaff, Hannah Übler, Sandro Tacchella, Emma Curtis-Lake, Santiago Arribas, Andrew Bunker, Stéphane Charlot, Jacopo Chevallard, Mirko Curti, Tobias J Looser, Michael V Maseda, Timothy D Rawle, Bruno Rodríguez Del Pino, Chris J Willott, Eiichi Egami, Daniel J Eisenstein, Kevin N Hainline, Brant Robertson, Christina C Williams, Christopher NA Willmer, William M Baker, Kristan Boyett, Christa DeCoursey, Andrew C Fabian, Jakob M Helton, Zhiyuan Ji, Gareth C Jones, Nimisha Kumari, Nicolas Laporte, Erica J Nelson, Michele Perna, Lester Sandles, Irene Shivaei, Fengwu Sun

SYREN-HALOFIT: A fast, interpretable, high-precision formula for the ΛCDM nonlinear matter power spectrum

Astronomy & Astrophysics EDP Sciences 686 (2024) a150

Authors:

Deaglan J Bartlett, Benjamin D Wandelt, Matteo Zennaro, Pedro G Ferreira, Harry Desmond

Cosmology from LOFAR Two-metre Sky Survey Data Release 2: Cross-correlation with the cosmic microwave background (Corrigendum)

Astronomy & Astrophysics EDP Sciences 686 (2024) ARTN C2

Authors:

Sj Nakoneczny, D Alonso, M Bilicki, Dj Schwarz, Cl Hale, A Pollo, C Heneka, P Tiwari, J Zheng, M Brüggen, Mj Jarvis, Tw Shimwell

The Highest-redshift Balmer Breaks as a Test of ΛCDM

The Astrophysical Journal American Astronomical Society 967:2 (2024) 172

Authors:

Charles L Steinhardt, Albert Sneppen, Thorbjørn Clausen, Harley Katz, Martin P Rey, Jonas Stahlschmidt

Abstract:

Recent studies have reported tension between the presence of luminous, high-redshift galaxies and the halo mass functions predicted by standard cosmology. Here, an improved test is proposed using the presence of high-redshift Balmer breaks to probe the formation of early 104–105 M ⊙ baryonic minihalos. Unlike previous tests, this does not depend upon the mass-to-light ratio and has only a slight dependence upon the metallicity, stellar initial mass function, and star formation history, which are all weakly constrained at high redshift. We show that the strongest Balmer breaks allowed at z = 9 using the simplest ΛCDM cosmological model would allow a D 4000 as high as 1.26 under idealized circumstances and D 4000 ≤ 1.14 including realistic feedback models. Since current photometric template fitting to JWST sources infers the existence of stronger Balmer breaks out to z ≳ 11, upcoming spectroscopic follow-up will either demonstrate those templates are invalid at high redshift or imply new physics beyond “vanilla” ΛCDM.