Stellar Half-Mass Radii of $0.5<z<2.3$ Galaxies: Comparison with JWST/NIRCam Half-Light Radii

Arjen van der Wel, Marco Martorano, Boris Häussler, Kalina V. Nedkova, Tim B. Miller, Gabriel B. Brammer, Glenn van de Ven, Joel Leja, Rachel S. Bezanson, Adam Muzzin, Danilo Marchesini, Anna de Graaff, Mariska Kriek, Eric F. Bell, Marijn Franx

Veröffentlichungen: Beitrag in FachzeitschriftArtikelPeer Reviewed

Abstract

We use CEERS JWST/NIRCam imaging to measure rest-frame near-IR light profiles of 435 M > 10 10 M galaxies in the redshift range of 0.5 < z < 2.3. We compare the resulting rest-frame 1.5-2 μm half-light radii (R NIR) with stellar half-mass radii ( R M ⋆ ) derived with multicolor light profiles from CANDELS Hubble Space Telescope imaging. In general agreement with previous work, we find that R NIR and R M ⋆ are up to 40% smaller than the rest-frame optical half-light radius R opt. The agreement between R NIR and R M ⋆ is excellent, with a negligible systematic offset (<0.03 dex) up to z = 2 for quiescent galaxies and up to z = 1.5 for star-forming galaxies. We also deproject the profiles to estimate R M ⋆ , 3 D , the radius of a sphere containing 50% of the stellar mass. We present the R−M distribution of galaxies at 0.5 < z < 1.5, comparing R opt, R M ⋆ , and R M ⋆ , 3 D . The slope is significantly flatter for R M ⋆ and R M ⋆ , 3 D compared to R opt, mostly due to downward shifts in size for massive star-forming galaxies, while R M ⋆ and R M ⋆ , 3 D do not show markedly different trends. Finally, we show rapid evolution of the size (R ∝ (1 + z) −1.7±0.1) of massive (M > 10 11 M ) quiescent galaxies between z = 0.5 and z = 2.3, again comparing R opt, R M ⋆ , and R M ⋆ , 3 D . We conclude that the main tenets of the evolution of the size narrative established over the past 20 yr, based on rest-frame optical light profile analysis, still hold in the era of JWST/NIRCam observations in the rest-frame near-IR.

OriginalspracheEnglisch
Aufsatznummer53
Seitenumfang18
FachzeitschriftThe Astrophysical Journal
Jahrgang960
Ausgabenummer1
DOIs
PublikationsstatusVeröffentlicht - 1 Jan. 2024

ÖFOS 2012

  • 103003 Astronomie
  • 103004 Astrophysik

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