- Author
- Marco Martorano (UGent) , Arjen van der Wel (UGent) , Maarten Baes (UGent) , E. F. Bell, G. Brammer, M. Franx, Andrea Gebek (UGent) , Sharon Meidt van der Wel (UGent) , T. B. Miller, E. Nelson, Angelos Nersesian (UGent) , S. H. Price, P. van Dokkum, K. E. Whitaker and S. Wuyts
- Organization
- Project
- Abstract
- Context. The Hubble Space Telescope (HST) has long been the only instrument able to allow us to investigate the structure of galaxies up to redshift z = 3, limited to the rest-frame UV and optical. The James Webb Space Telescope (JWST) is now unveiling the rest-frame near-IR structure of galaxies, less affected by dust attenuation and more representative of their underlying stellar mass profiles. Aims. We measure the evolution with redshift of the rest-frame optical and near-IR Sérsic index (n), and examine the dependence on stellar mass and star-formation activity across the redshift range 0.5 ≤ z ≤ 2.5. Methods. For an HST-selected parent sample in the CANDELS fields we infer rest-frame near-IR Sérsic profiles for ≈15 000 galaxies in publicly available NIRCam imaging mosaics from the COSMOS-Web and PRIMER surveys. We augment these with rest-frame optical Sérsic indices, previously measured from HST imaging mosaics. Results. The median Sérsic index evolves slowly or not at all with redshift, except for very high-mass galaxies (M⋆ > 1011 M⊙), which show an increase from n ≈ 2.5 to n ≈ 4 at z < 1. High-mass galaxies have higher n than lower-mass galaxies (the sample reaches down to M⋆ = 109.5 M⊙) at all redshifts, with a stronger dependence in the rest-frame near-IR than in the rest-frame optical at z > 1. This wavelength dependence is caused by star-forming galaxies that have lower optical than near-IR n at z > 1 (but not at z < 1). Both at optical and near-IR wavelengths, star-forming galaxies have lower n than quiescent galaxies, confirming and fortifying the result that across cosmic time a connection exists between star-formation activity and the radial stellar mass distribution. Besides these general trends that confirm previous results, two new trends emerge: (1) at z > 1 the median near-IR n varies strongly with star formation activity, but not with stellar mass, and (2) the scatter in near-IR n is substantially higher in the green valley (0.25 dex) than on the star-forming sequence and among quiescent galaxies (0.18 dex) – this trend is not seen in the optical because dust and young stars contribute to the variety in optical light profiles. Our newly measured rest-frame near-IR radial light profiles motivate future comparisons with radial stellar mass profiles of simulated galaxies as a stringent constraint on processes that govern galaxy formation.
- Keywords
- galaxies: bulges, galaxies: evolution, galaxies: high-redshift, galaxies: structure, SIMILAR-TO 2, STAR-FORMATION HISTORIES, EARLY-TYPE GALAXIES, LESS-THAN 2, QUIESCENT GALAXIES, MASSIVE GALAXIES, STELLAR MASS, FORMING GALAXIES, SIZE EVOLUTION, SUBMILLIMETER GALAXIES
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01JK89EMEKJV04KFQ8ZE7V21KT
- MLA
- Martorano, Marco, et al. “Evolution of the Sérsic Index up to z = 2.5 from JWST and HST.” ASTRONOMY & ASTROPHYSICS, vol. 694, 2025, doi:10.1051/0004-6361/202452919.
- APA
- Martorano, M., van der Wel, A., Baes, M., Bell, E. F., Brammer, G., Franx, M., … Wuyts, S. (2025). Evolution of the Sérsic index up to z = 2.5 from JWST and HST. ASTRONOMY & ASTROPHYSICS, 694. https://doi.org/10.1051/0004-6361/202452919
- Chicago author-date
- Martorano, Marco, Arjen van der Wel, Maarten Baes, E. F. Bell, G. Brammer, M. Franx, Andrea Gebek, et al. 2025. “Evolution of the Sérsic Index up to z = 2.5 from JWST and HST.” ASTRONOMY & ASTROPHYSICS 694. https://doi.org/10.1051/0004-6361/202452919.
- Chicago author-date (all authors)
- Martorano, Marco, Arjen van der Wel, Maarten Baes, E. F. Bell, G. Brammer, M. Franx, Andrea Gebek, Sharon Meidt van der Wel, T. B. Miller, E. Nelson, Angelos Nersesian, S. H. Price, P. van Dokkum, K. E. Whitaker, and S. Wuyts. 2025. “Evolution of the Sérsic Index up to z = 2.5 from JWST and HST.” ASTRONOMY & ASTROPHYSICS 694. doi:10.1051/0004-6361/202452919.
- Vancouver
- 1.Martorano M, van der Wel A, Baes M, Bell EF, Brammer G, Franx M, et al. Evolution of the Sérsic index up to z = 2.5 from JWST and HST. ASTRONOMY & ASTROPHYSICS. 2025;694.
- IEEE
- [1]M. Martorano et al., “Evolution of the Sérsic index up to z = 2.5 from JWST and HST,” ASTRONOMY & ASTROPHYSICS, vol. 694, 2025.
@article{01JK89EMEKJV04KFQ8ZE7V21KT,
abstract = {{Context. The Hubble Space Telescope (HST) has long been the only instrument able to allow us to investigate the structure of galaxies up to redshift z = 3, limited to the rest-frame UV and optical. The James Webb Space Telescope (JWST) is now unveiling the rest-frame near-IR structure of galaxies, less affected by dust attenuation and more representative of their underlying stellar mass profiles.
Aims. We measure the evolution with redshift of the rest-frame optical and near-IR Sérsic index (n), and examine the dependence on stellar mass and star-formation activity across the redshift range 0.5 ≤ z ≤ 2.5.
Methods. For an HST-selected parent sample in the CANDELS fields we infer rest-frame near-IR Sérsic profiles for ≈15 000 galaxies in publicly available NIRCam imaging mosaics from the COSMOS-Web and PRIMER surveys. We augment these with rest-frame optical Sérsic indices, previously measured from HST imaging mosaics.
Results. The median Sérsic index evolves slowly or not at all with redshift, except for very high-mass galaxies (M⋆ > 1011 M⊙), which show an increase from n ≈ 2.5 to n ≈ 4 at z < 1. High-mass galaxies have higher n than lower-mass galaxies (the sample reaches down to M⋆ = 109.5 M⊙) at all redshifts, with a stronger dependence in the rest-frame near-IR than in the rest-frame optical at z > 1. This wavelength dependence is caused by star-forming galaxies that have lower optical than near-IR n at z > 1 (but not at z < 1). Both at optical and near-IR wavelengths, star-forming galaxies have lower n than quiescent galaxies, confirming and fortifying the result that across cosmic time a connection exists between star-formation activity and the radial stellar mass distribution. Besides these general trends that confirm previous results, two new trends emerge: (1) at z > 1 the median near-IR n varies strongly with star formation activity, but not with stellar mass, and (2) the scatter in near-IR n is substantially higher in the green valley (0.25 dex) than on the star-forming sequence and among quiescent galaxies (0.18 dex) – this trend is not seen in the optical because dust and young stars contribute to the variety in optical light profiles. Our newly measured rest-frame near-IR radial light profiles motivate future comparisons with radial stellar mass profiles of simulated galaxies as a stringent constraint on processes that govern galaxy formation.}},
articleno = {{A76}},
author = {{Martorano, Marco and van der Wel, Arjen and Baes, Maarten and Bell, E. F. and Brammer, G. and Franx, M. and Gebek, Andrea and van der Wel, Sharon Meidt and Miller, T. B. and Nelson, E. and Nersesian, Angelos and Price, S. H. and van Dokkum, P. and Whitaker, K. E. and Wuyts, S.}},
issn = {{0004-6361}},
journal = {{ASTRONOMY & ASTROPHYSICS}},
keywords = {{galaxies: bulges,galaxies: evolution,galaxies: high-redshift,galaxies: structure,SIMILAR-TO 2,STAR-FORMATION HISTORIES,EARLY-TYPE GALAXIES,LESS-THAN 2,QUIESCENT GALAXIES,MASSIVE GALAXIES,STELLAR MASS,FORMING GALAXIES,SIZE EVOLUTION,SUBMILLIMETER GALAXIES}},
language = {{eng}},
pages = {{12}},
title = {{Evolution of the Sérsic index up to z = 2.5 from JWST and HST}},
url = {{http://doi.org/10.1051/0004-6361/202452919}},
volume = {{694}},
year = {{2025}},
}
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