Taking a Break at Cosmic Noon: Continuum-selected Low-mass Galaxies Require Long Burst Cycles Journal Article uri icon

Overview

abstract

  • Abstract; ; While bursty star formation in low-mass galaxies has been observed in local populations and reproduced in simulations, the dormant phase of the burst cycle has not been well studied beyond the local Universe due to observational limitations. We present a unique sample of 43 JWST PRISM spectra of low-mass galaxies (; M; ; < 10; 9.5; M; ; ) at cosmic noon (1 < ; z;  < 3), uniformly selected on F200W magnitude and precise photometric redshifts enabled by 20-band JWST photometry from the UNCOVER and MegaScience surveys. The spectra reveal numerous strong Balmer breaks, which are negatively correlated with the galaxies’ H; α; equivalent width. By comparing these observations to synthetic samples of spectra generated using a simple parameterization of bursty star formation histories, we show that star formation in low-mass galaxies at cosmic noon is likely dominated by burst cycles with long timescales (≳100 Myr) and large deviations below the star-forming main sequence (≳0.8 dex). Our results suggest that galaxies in this population—at least those within our detection limits—should not be classified solely by their current star formation rates, but instead viewed as a unified population undergoing dynamic movement above and below the star-forming main sequence. The derived constraints demonstrate that long-timescale fluctuations are important for this class of galaxies, indicating that galaxy-scale gas cycles—rather than molecular-cloud-scale stochasticity—are the primary regulators of star formation variability in low-mass galaxies at cosmic noon.;

publication date

  • February 20, 2026

Date in CU Experts

  • February 27, 2026 3:00 AM

Full Author List

  • Mintz A; Setton DJ; Greene JE; Leja J; Wang 王 B冰; Burnham E; Suess KA; Atek H; Bezanson R; Brammer G

author count

  • 27

Other Profiles

International Standard Serial Number (ISSN)

  • 0004-637X

Electronic International Standard Serial Number (EISSN)

  • 1538-4357

Additional Document Info

start page

  • 257

end page

  • 257

volume

  • 998

issue

  • 2