TY - JOUR
T1 - Protoclusters as drivers of stellar mass growth in the early Universe, a case study
T2 - Taralay –a massive protocluster at z∼4.57
AU - Staab, Priti
AU - Lemaux, Brian C.
AU - Forrest, Ben
AU - Shah, Ekta
AU - Cucciati, Olga
AU - Lubin, Lori
AU - Gal, Roy R.
AU - Hung, Denise
AU - Shen, Lu
AU - Giddings, Finn
AU - Khusanova, Yana
AU - Zamorani, Giovanni
AU - Bardelli, Sandro
AU - Cassara, Letizia Pasqua
AU - Cassata, Paolo
AU - Chiang, Yi Kuan
AU - Fudamoto, Yoshinobu
AU - Fukushima, Shuma
AU - Garilli, Bianca
AU - Giavalisco, Mauro
AU - Gruppioni, Carlotta
AU - Guaita, Lucia
AU - Gururajan, Gayathri
AU - Hathi, Nimish
AU - Kashino, Daichi
AU - Scoville, Nick
AU - Talia, Margherita
AU - Vergani, Daniela
AU - Zucca, Elena
N1 - Publisher Copyright:
© 2024 The Author(s).
PY - 2024/3/1
Y1 - 2024/3/1
N2 - Simulations predict that the galaxy populations inhabiting protoclusters may contribute considerably to the total amount of stellar mass growth of galaxies in the early universe. In this study, we test these predictions observationally, using the Taralay protocluster (formerly PCl J1001 + 0220) at z ∼4.57 in the COSMOS field. With the Charting Cluster Construction with VUDS and ORELSE (C3VO) survey, we spectroscopically confirmed 44 galaxies within the adopted redshift range of the protocluster (4.48 < z < 4.64) and incorporate an additional 18 galaxies from ancillary spectroscopic surv e ys. Using a density mapping technique, we estimate the total mass of Taralay to be ∼1.7 ×10 15 M⊙, sufficient to form a massive cluster by the present day. By comparing the star formation rate density (SFRD) within the protocluster (SFRDpc) to that of the coe v al field (SFRD field), we find that SFRDpc surpasses the SFRDfield by ∆log(SFRD/M⊙yr−1 Mpc−3) = 1.08 ±0.32 (or ∼12 ×). The observed contribution fraction of protoclusters to the cosmic SFRD adopting Taralay as a proxy for typical protoclusters is 33.5 per cent [Formula presented], a value ∼2σ higher than the predictions from simulations. Taralay contains three peaks that are 5σ above the average density at these redshifts. Their SFRD is ∼0.5 dex higher than the value derived for the overall protocluster. We show that 68 per cent of all star formation in the protocluster takes place within these peaks, and that the innermost regions of the peaks encase ∼50 per cent of the total star formation in the protocluster. This study strongly suggests that protoclusters drive stellar mass growth in the early universe and that this growth may proceed in an inside-out manner.
AB - Simulations predict that the galaxy populations inhabiting protoclusters may contribute considerably to the total amount of stellar mass growth of galaxies in the early universe. In this study, we test these predictions observationally, using the Taralay protocluster (formerly PCl J1001 + 0220) at z ∼4.57 in the COSMOS field. With the Charting Cluster Construction with VUDS and ORELSE (C3VO) survey, we spectroscopically confirmed 44 galaxies within the adopted redshift range of the protocluster (4.48 < z < 4.64) and incorporate an additional 18 galaxies from ancillary spectroscopic surv e ys. Using a density mapping technique, we estimate the total mass of Taralay to be ∼1.7 ×10 15 M⊙, sufficient to form a massive cluster by the present day. By comparing the star formation rate density (SFRD) within the protocluster (SFRDpc) to that of the coe v al field (SFRD field), we find that SFRDpc surpasses the SFRDfield by ∆log(SFRD/M⊙yr−1 Mpc−3) = 1.08 ±0.32 (or ∼12 ×). The observed contribution fraction of protoclusters to the cosmic SFRD adopting Taralay as a proxy for typical protoclusters is 33.5 per cent [Formula presented], a value ∼2σ higher than the predictions from simulations. Taralay contains three peaks that are 5σ above the average density at these redshifts. Their SFRD is ∼0.5 dex higher than the value derived for the overall protocluster. We show that 68 per cent of all star formation in the protocluster takes place within these peaks, and that the innermost regions of the peaks encase ∼50 per cent of the total star formation in the protocluster. This study strongly suggests that protoclusters drive stellar mass growth in the early universe and that this growth may proceed in an inside-out manner.
KW - active–galaxies
KW - clusters
KW - evolution–galaxies
KW - galaxies
KW - high-redshift–galaxies
KW - individual
KW - large-scale structure of Universe
KW - PCl J1001+0220–galaxies
KW - star formation–cosmology
UR - http://www.scopus.com/inward/record.url?scp=85185891002&partnerID=8YFLogxK
U2 - 10.1093/mnras/stae301
DO - 10.1093/mnras/stae301
M3 - Article
AN - SCOPUS:85185891002
SN - 0035-8711
VL - 528
SP - 6934
EP - 6958
JO - Monthly Notices of the Royal Astronomical Society
JF - Monthly Notices of the Royal Astronomical Society
IS - 4
ER -