The mass-dependent UVJ diagram at cosmic noon : a challenge for galaxy evolution models and dust radiative transfer

Gebek, Andrea; Diemer, Benedikt; Martorano, Marco; van der Wel, Arjen; Pantoni, Lara; Baes, Maarten; Gabrielpillai, Austen; Kapoor, Anand Utsav; Osinga, Calvin; Nersesian, Angelos; Matsumoto, Kosei; Gordon, Karl

The mass-dependent UVJ diagram at cosmic noon : a challenge for galaxy evolution models and dust radiative transfer

Andrea Gebek (UGent) , Benedikt Diemer, Marco Martorano (UGent) , Arjen van der Wel (UGent) , Lara Pantoni (UGent) , Maarten Baes (UGent) , Austen Gabrielpillai, Anand Utsav Kapoor (UGent) , Calvin Osinga, Angelos Nersesian (UGent) , et al.

(2025) ASTRONOMY & ASTROPHYSICS. 695.

Author

Andrea Gebek (UGent) , Benedikt Diemer, Marco Martorano (UGent) , Arjen van der Wel (UGent) , Lara Pantoni (UGent) , Maarten Baes (UGent) , Austen Gabrielpillai, Anand Utsav Kapoor (UGent) , Calvin Osinga, Angelos Nersesian (UGent) , Kosei Matsumoto (UGent) and Karl Gordon (UGent)

Organization

Department of Physics and astronomy

Project

The reliability of infrared emission as a galaxy star formation rate tracer

Abstract

Context. The UVJ color-color diagram is a widely used diagnostic to separate star-forming and quiescent galaxies. Observational data from photometric surveys reveal a strong stellar mass trend, with higher-mass star-forming galaxies being systematically more dust-reddened. Aims. We analyze the UVJ diagram in the TNG100 cosmological simulation at cosmic noon (z=2). Specifically, we focus on the trend between UVJ colors and mass, which has not been reproduced in any cosmological simulation thus far. Methods. We applied the SKIRT dust radiative transfer code to the TNG100 simulation to generate rest-frame UVJ fluxes. These UVJ colors were then compared to observational data from several well-studied extragalactic fields from the CANDELS/3D-HST programs, augmented by recent JWST/NIRCam photometry. Results. Quiescent and low-mass galaxies at cosmic noon do not require significant levels of dust reddening, as opposed to massive star-forming galaxies. An extensive range of possible dust models fall short of the required dust reddening in V-J color for massive star-forming galaxies, with the simulated galaxies being too blue by 0.9 mag. Conclusions. We find that only variations in the star-to-dust geometries of the simulated galaxies are able to yield V-J colors that are red enough to match the observations. A toy model with isolated dust screens around younger stellar populations (with ages below 1 Gyr) can reproduce the observational data, while all “conventional” dust radiative transfer models (where the dust distribution follows the metals in the interstellar medium) fail to achieve the required V-J colors.

Keywords

radiative transfer, methods: numerical, dust, extinction, galaxies: evolution, galaxies: photometry, STAR-FORMING GALAXIES, STELLAR POPULATION SYNTHESIS, SPECTRAL ENERGY-DISTRIBUTIONS, LESS-THAN 2.5, ILLUSTRISTNG SIMULATIONS, QUIESCENT GALAXIES, ATTENUATION CURVE, TRANSFER CODE, MOSDEF SURVEY, DATA RELEASE

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Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01JV24HBZPJA4G7D18JNPJSCT7

MLA: Gebek, Andrea, et al. “The Mass-Dependent UVJ Diagram at Cosmic Noon : A Challenge for Galaxy Evolution Models and Dust Radiative Transfer.” ASTRONOMY & ASTROPHYSICS, vol. 695, 2025, doi:10.1051/0004-6361/202452768.
APA: Gebek, A., Diemer, B., Martorano, M., van der Wel, A., Pantoni, L., Baes, M., … Gordon, K. (2025). The mass-dependent UVJ diagram at cosmic noon : a challenge for galaxy evolution models and dust radiative transfer. ASTRONOMY & ASTROPHYSICS, 695. https://doi.org/10.1051/0004-6361/202452768
Chicago author-date: Gebek, Andrea, Benedikt Diemer, Marco Martorano, Arjen van der Wel, Lara Pantoni, Maarten Baes, Austen Gabrielpillai, et al. 2025. “The Mass-Dependent UVJ Diagram at Cosmic Noon : A Challenge for Galaxy Evolution Models and Dust Radiative Transfer.” ASTRONOMY & ASTROPHYSICS 695. https://doi.org/10.1051/0004-6361/202452768.
Chicago author-date (all authors): Gebek, Andrea, Benedikt Diemer, Marco Martorano, Arjen van der Wel, Lara Pantoni, Maarten Baes, Austen Gabrielpillai, Anand Utsav Kapoor, Calvin Osinga, Angelos Nersesian, Kosei Matsumoto, and Karl Gordon. 2025. “The Mass-Dependent UVJ Diagram at Cosmic Noon : A Challenge for Galaxy Evolution Models and Dust Radiative Transfer.” ASTRONOMY & ASTROPHYSICS 695. doi:10.1051/0004-6361/202452768.
Vancouver: 1.
Gebek A, Diemer B, Martorano M, van der Wel A, Pantoni L, Baes M, et al. The mass-dependent UVJ diagram at cosmic noon : a challenge for galaxy evolution models and dust radiative transfer. ASTRONOMY & ASTROPHYSICS. 2025;695.
IEEE: [1]
A. Gebek et al., “The mass-dependent UVJ diagram at cosmic noon : a challenge for galaxy evolution models and dust radiative transfer,” ASTRONOMY & ASTROPHYSICS, vol. 695, 2025.

@article{01JV24HBZPJA4G7D18JNPJSCT7,
  abstract     = {{Context. The UVJ color-color diagram is a widely used diagnostic to separate star-forming and quiescent galaxies. Observational data from photometric surveys reveal a strong stellar mass trend, with higher-mass star-forming galaxies being systematically more dust-reddened.
Aims. We analyze the UVJ diagram in the TNG100 cosmological simulation at cosmic noon (z=2). Specifically, we focus on the trend between UVJ colors and mass, which has not been reproduced in any cosmological simulation thus far.
Methods. We applied the SKIRT dust radiative transfer code to the TNG100 simulation to generate rest-frame UVJ fluxes. These UVJ colors were then compared to observational data from several well-studied extragalactic fields from the CANDELS/3D-HST programs, augmented by recent JWST/NIRCam photometry.
Results. Quiescent and low-mass galaxies at cosmic noon do not require significant levels of dust reddening, as opposed to massive star-forming galaxies. An extensive range of possible dust models fall short of the required dust reddening in V-J color for massive star-forming galaxies, with the simulated galaxies being too blue by 0.9 mag.
Conclusions. We find that only variations in the star-to-dust geometries of the simulated galaxies are able to yield V-J colors that are red enough to match the observations. A toy model with isolated dust screens around younger stellar populations (with ages below 1 Gyr) can reproduce the observational data, while all “conventional” dust radiative transfer models (where the dust distribution follows the metals in the interstellar medium) fail to achieve the required V-J colors.}},
  articleno    = {{A90}},
  author       = {{Gebek, Andrea and Diemer, Benedikt and Martorano, Marco and van der Wel, Arjen and Pantoni, Lara and Baes, Maarten and Gabrielpillai, Austen and Kapoor, Anand Utsav and Osinga, Calvin and Nersesian, Angelos and Matsumoto, Kosei and Gordon, Karl}},
  issn         = {{0004-6361}},
  journal      = {{ASTRONOMY & ASTROPHYSICS}},
  keywords     = {{radiative transfer,methods: numerical,dust,extinction,galaxies: evolution,galaxies: photometry,STAR-FORMING GALAXIES,STELLAR POPULATION SYNTHESIS,SPECTRAL ENERGY-DISTRIBUTIONS,LESS-THAN 2.5,ILLUSTRISTNG SIMULATIONS,QUIESCENT GALAXIES,ATTENUATION CURVE,TRANSFER CODE,MOSDEF SURVEY,DATA RELEASE}},
  language     = {{eng}},
  pages        = {{21}},
  title        = {{The mass-dependent UVJ diagram at cosmic noon : a challenge for galaxy evolution models and dust radiative transfer}},
  url          = {{http://doi.org/10.1051/0004-6361/202452768}},
  volume       = {{695}},
  year         = {{2025}},
}

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The mass-dependent UVJ diagram at cosmic noon : a challenge for galaxy evolution models and dust radiative transfer

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