TY - JOUR
T1 - JWST UNCOVER
T2 - the overabundance of ultraviolet-luminous galaxies at z > 9
AU - Chemerynska, Iryna
AU - Atek, Hakim
AU - Furtak, Lukas J.
AU - Zitrin, Adi
AU - Greene, Jenny E.
AU - Dayal, Pratika
AU - Weibel, Andrea
AU - Fujimoto, Seiji
AU - Kokorev, Vasily
AU - Goulding, Andy D.
AU - Williams, Christina C.
AU - Nanayakkara, Themiya
AU - Bezanson, Rachel
AU - Brammer, Gabriel
AU - Cutler, Sam E.
AU - Labbe, Ivo
AU - Leja, Joel
AU - Pan, Richard
AU - Price, Sedona H.
AU - van Dokkum, Pieter
AU - Wang, Bingjie
AU - Weaver, John R.
AU - Whitaker, Katherine E.
N1 - Publisher Copyright:
© 2024 The Author(s).
PY - 2024/6/1
Y1 - 2024/6/1
N2 - Over the past year, JWST has uncovered galaxies at record-breaking distances up to z ∼ 13. The JWST UNCOVER (ultra-deep NIRSpec and NIRcam observations before the epoch of reionization) program has obtained ultra-deep multiwavelength NIRCam imaging of the massive galaxy cluster A2744 over ∼45 arcmin2 down to ∼29.5 AB mag. Here, we present a robust ultraviolet (UV) luminosity function derived through lensing clusters at 9 < z < 12. Using comprehensive end-to-end simulations, we account for all lensing effects and systematic uncertainties in deriving both the amplification factors and the effective survey volume. Our results confirm the intriguing excess of UV-bright galaxies (MUV <−20 AB mag) previously reported at z > 9 in recent JWST studies. In particular, a double power-law (DPL) describes better the bright end of the luminosity function compared to the classical Schechter form. The number density of these bright galaxies is 10–100 times larger than theoretical predictions and previous findings based on Hubble Space Telescope (HST) observations. Additionally, we measure a star formation rate density of ρSFR = 10−2.64 M☉ yr−1 Mpc−3 at these redshifts, which is 4–10 times higher than galaxy formation models that assume a constant star formation efficiency. Future wide-area surveys and accurate modelling of lensing-assisted observations will reliably constrain both the bright and the dim end of the UV luminosity function at z > 9, which will provide key benchmarks for galaxy formation models.
AB - Over the past year, JWST has uncovered galaxies at record-breaking distances up to z ∼ 13. The JWST UNCOVER (ultra-deep NIRSpec and NIRcam observations before the epoch of reionization) program has obtained ultra-deep multiwavelength NIRCam imaging of the massive galaxy cluster A2744 over ∼45 arcmin2 down to ∼29.5 AB mag. Here, we present a robust ultraviolet (UV) luminosity function derived through lensing clusters at 9 < z < 12. Using comprehensive end-to-end simulations, we account for all lensing effects and systematic uncertainties in deriving both the amplification factors and the effective survey volume. Our results confirm the intriguing excess of UV-bright galaxies (MUV <−20 AB mag) previously reported at z > 9 in recent JWST studies. In particular, a double power-law (DPL) describes better the bright end of the luminosity function compared to the classical Schechter form. The number density of these bright galaxies is 10–100 times larger than theoretical predictions and previous findings based on Hubble Space Telescope (HST) observations. Additionally, we measure a star formation rate density of ρSFR = 10−2.64 M☉ yr−1 Mpc−3 at these redshifts, which is 4–10 times higher than galaxy formation models that assume a constant star formation efficiency. Future wide-area surveys and accurate modelling of lensing-assisted observations will reliably constrain both the bright and the dim end of the UV luminosity function at z > 9, which will provide key benchmarks for galaxy formation models.
KW - galaxies: formation
KW - galaxies: high-redshift
KW - galaxies: luminosity function, mass function
KW - gravitational lensing: strong
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U2 - 10.1093/mnras/stae1260
DO - 10.1093/mnras/stae1260
M3 - Article
AN - SCOPUS:85195285947
SN - 0035-8711
VL - 531
SP - 2615
EP - 2625
JO - Monthly Notices of the Royal Astronomical Society
JF - Monthly Notices of the Royal Astronomical Society
IS - 2
ER -