TY - JOUR
T1 - FOREVER22
T2 - Galaxy formation in protocluster regions
AU - Yajima, Hidenobu
AU - Abe, Makito
AU - Khochfar, Sadegh
AU - Nagamine, Kentaro
AU - Inoue, Akio K.
AU - Kodama, Tadayuki
AU - Arata, Shohei
AU - Dalla Vecchia, Claudio
AU - Fukushima, Hajime
AU - Hashimoto, Takuya
AU - Kashikawa, Nobunari
AU - Kubo, Mariko
AU - Li, Yuexing
AU - Matsuda, Yuichi
AU - Mawatari, Ken
AU - Ouchi, Masami
AU - Umehata, Hideki
N1 - Publisher Copyright:
© 2021 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.
PY - 2022/1/1
Y1 - 2022/1/1
N2 - We present results from a new cosmological hydrodynamics simulation campaign of protocluster (PC) regions, FOREVER22: FORmation and EVolution of galaxies in Extremely overdense Regions motivated by SSA22. The simulations cover a wide range of cosmological scales using three different zoom set-ups in a parent volume of $(714.2rm cMpc){3}$: PCR (Proto-Cluster Region; V = (28.6 cMpc)3, SPH particle mass, mSPH = 4.1 × 106 M, and final redshift, zend = 2.0), BCG (Brightest proto-Cluster Galaxy; V ∼(10 cMpc)3, mSPH = 5.0 × 105 M and zend = 4.0), and First (V ∼(3 cMpc)3, mSPH = 7.9 × 103 M and zend = 9.5) runs, that allow us to focus on different aspects of galaxy formation. In the PCR runs, we follow 10 PCs, each harbouring 1-4 SMBHs with ${rm M_{rm BH}}ge 10{9}{rm M_{odot }}$. One of the PC cores shows a spatially close arrangement of seven starburst galaxies with ${rm SFR} gtrsim 100{rm {rm M_{odot }}{rm yr{-1}}}$ each, that are dust-obscured and would appear as submillimetre galaxies with flux 1 mJy at $1.1 rm mm$ in observations. The BCG runs show that the total SFRs of haloes hosting BCGs are affected by AGN feedback, but exceed $1000{rm {rm M_{odot }{rm yr{-1}}}$ at z 6. The First runs resolve mini-haloes hosting population (Pop) III stars and we show that, in PC regions, the dominant stellar population changes from Pop III to Pop II at z 20, and the first galaxies with ${rm SFR} gtrsim 18{rm {rm M_{odot }}{rm yr{-1}}}$ form at z ∼10. These can be prime targets for future observations with the James Webb Space Telescope. Our simulations successfully reproduce the global star formation activities in observed PCs and suggest that PCs can kickstart cosmic reionization.
AB - We present results from a new cosmological hydrodynamics simulation campaign of protocluster (PC) regions, FOREVER22: FORmation and EVolution of galaxies in Extremely overdense Regions motivated by SSA22. The simulations cover a wide range of cosmological scales using three different zoom set-ups in a parent volume of $(714.2rm cMpc){3}$: PCR (Proto-Cluster Region; V = (28.6 cMpc)3, SPH particle mass, mSPH = 4.1 × 106 M, and final redshift, zend = 2.0), BCG (Brightest proto-Cluster Galaxy; V ∼(10 cMpc)3, mSPH = 5.0 × 105 M and zend = 4.0), and First (V ∼(3 cMpc)3, mSPH = 7.9 × 103 M and zend = 9.5) runs, that allow us to focus on different aspects of galaxy formation. In the PCR runs, we follow 10 PCs, each harbouring 1-4 SMBHs with ${rm M_{rm BH}}ge 10{9}{rm M_{odot }}$. One of the PC cores shows a spatially close arrangement of seven starburst galaxies with ${rm SFR} gtrsim 100{rm {rm M_{odot }}{rm yr{-1}}}$ each, that are dust-obscured and would appear as submillimetre galaxies with flux 1 mJy at $1.1 rm mm$ in observations. The BCG runs show that the total SFRs of haloes hosting BCGs are affected by AGN feedback, but exceed $1000{rm {rm M_{odot }{rm yr{-1}}}$ at z 6. The First runs resolve mini-haloes hosting population (Pop) III stars and we show that, in PC regions, the dominant stellar population changes from Pop III to Pop II at z 20, and the first galaxies with ${rm SFR} gtrsim 18{rm {rm M_{odot }}{rm yr{-1}}}$ form at z ∼10. These can be prime targets for future observations with the James Webb Space Telescope. Our simulations successfully reproduce the global star formation activities in observed PCs and suggest that PCs can kickstart cosmic reionization.
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U2 - 10.1093/mnras/stab3092
DO - 10.1093/mnras/stab3092
M3 - Article
AN - SCOPUS:85122279949
SN - 0035-8711
VL - 509
SP - 4037
EP - 4057
JO - Monthly Notices of the Royal Astronomical Society
JF - Monthly Notices of the Royal Astronomical Society
IS - 3
ER -