Mapping the Most Massive Overdensities through Hydrogen (MAMMOTH). II. Discovery of the Extremely Massive Overdensity BOSS1441 at z = 2.32

Zheng Cai; Xiaohui Fan; Fuyan Bian; Ann Zabludoff; Yujin Yang; J. Xavier Prochaska; Ian McGreer; Zhen Ya Zheng; Nobunari Kashikawa; Ran Wang; Brenda Frye; Richard Green; Linhua Jiang

doi:10.3847/1538-4357/aa6a1a

Mapping the Most Massive Overdensities through Hydrogen (MAMMOTH). II. Discovery of the Extremely Massive Overdensity BOSS1441 at z = 2.32

Zheng Cai, Xiaohui Fan, Fuyan Bian, Ann Zabludoff, Yujin Yang, J. Xavier Prochaska, Ian McGreer, Zhen Ya Zheng, Nobunari Kashikawa, Ran Wang, Brenda Frye, Richard Green, Linhua Jiang

Astronomy

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92 Scopus citations

Abstract

Cosmological simulations suggest a strong correlation between high optical-depth Lyα absorbers, which arise from the intergalactic medium, and 3D mass overdensities on scales of 10-30 comoving Mpc. By examining the absorption spectra of ∼80,000 QSO sight lines over a volume of 0.1 Gpc³ in the Sloan Digital Sky Survey III (SDSS-III), we have identified an extreme overdensity, BOSS1441, which contains a rare group of strong Lyα absorbers at . This absorber group is associated with six QSOs at the same redshift on a 30 comoving Mpc scale. Using Mayall/MOSAIC narrowband and broadband imaging, we detect Lyα emitters (LAEs) down to and reveal a large-scale structure of LAEs in this field. Our follow-up LBT observations have spectroscopically confirmed 20 galaxies in the density peak. We show that BOSS1441 has an LAE overdensity of 10.8 2.6 on a 15 comoving Mpc scale, which could collapse to a massive cluster with M 10¹⁵ at . This overdensity is among the most massive large-scale structures at discovered to date.

Original language	English (US)
Article number	131
Journal	Astrophysical Journal
Volume	839
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/aa6a1a
State	Published - Apr 20 2017

Keywords

galaxies: clusters: general
galaxies: high-redshift
intergalactic medium

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-4357/aa6a1a

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Cai, Z., Fan, X., Bian, F., Zabludoff, A., Yang, Y., Prochaska, J. X., McGreer, I., Zheng, Z. Y., Kashikawa, N., Wang, R., Frye, B., Green, R., & Jiang, L. (2017). Mapping the Most Massive Overdensities through Hydrogen (MAMMOTH). II. Discovery of the Extremely Massive Overdensity BOSS1441 at z = 2.32. Astrophysical Journal, 839(2), Article 131. https://doi.org/10.3847/1538-4357/aa6a1a

Cai, Z, Fan, X, Bian, F, Zabludoff, A, Yang, Y, Prochaska, JX, McGreer, I, Zheng, ZY, Kashikawa, N, Wang, R, Frye, B, Green, R & Jiang, L 2017, 'Mapping the Most Massive Overdensities through Hydrogen (MAMMOTH). II. Discovery of the Extremely Massive Overdensity BOSS1441 at z = 2.32', Astrophysical Journal, vol. 839, no. 2, 131. https://doi.org/10.3847/1538-4357/aa6a1a

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abstract = "Cosmological simulations suggest a strong correlation between high optical-depth Lyα absorbers, which arise from the intergalactic medium, and 3D mass overdensities on scales of 10-30 comoving Mpc. By examining the absorption spectra of ∼80,000 QSO sight lines over a volume of 0.1 Gpc3 in the Sloan Digital Sky Survey III (SDSS-III), we have identified an extreme overdensity, BOSS1441, which contains a rare group of strong Lyα absorbers at . This absorber group is associated with six QSOs at the same redshift on a 30 comoving Mpc scale. Using Mayall/MOSAIC narrowband and broadband imaging, we detect Lyα emitters (LAEs) down to and reveal a large-scale structure of LAEs in this field. Our follow-up LBT observations have spectroscopically confirmed 20 galaxies in the density peak. We show that BOSS1441 has an LAE overdensity of 10.8 2.6 on a 15 comoving Mpc scale, which could collapse to a massive cluster with M 1015 at . This overdensity is among the most massive large-scale structures at discovered to date.",

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author = "Zheng Cai and Xiaohui Fan and Fuyan Bian and Ann Zabludoff and Yujin Yang and Prochaska, {J. Xavier} and Ian McGreer and Zheng, {Zhen Ya} and Nobunari Kashikawa and Ran Wang and Brenda Frye and Richard Green and Linhua Jiang",

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T1 - Mapping the Most Massive Overdensities through Hydrogen (MAMMOTH). II. Discovery of the Extremely Massive Overdensity BOSS1441 at z = 2.32

AU - Cai, Zheng

AU - Fan, Xiaohui

AU - Bian, Fuyan

AU - Zabludoff, Ann

AU - Yang, Yujin

AU - Prochaska, J. Xavier

AU - McGreer, Ian

AU - Zheng, Zhen Ya

AU - Kashikawa, Nobunari

AU - Wang, Ran

AU - Frye, Brenda

AU - Green, Richard

AU - Jiang, Linhua

PY - 2017/4/20

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N2 - Cosmological simulations suggest a strong correlation between high optical-depth Lyα absorbers, which arise from the intergalactic medium, and 3D mass overdensities on scales of 10-30 comoving Mpc. By examining the absorption spectra of ∼80,000 QSO sight lines over a volume of 0.1 Gpc3 in the Sloan Digital Sky Survey III (SDSS-III), we have identified an extreme overdensity, BOSS1441, which contains a rare group of strong Lyα absorbers at . This absorber group is associated with six QSOs at the same redshift on a 30 comoving Mpc scale. Using Mayall/MOSAIC narrowband and broadband imaging, we detect Lyα emitters (LAEs) down to and reveal a large-scale structure of LAEs in this field. Our follow-up LBT observations have spectroscopically confirmed 20 galaxies in the density peak. We show that BOSS1441 has an LAE overdensity of 10.8 2.6 on a 15 comoving Mpc scale, which could collapse to a massive cluster with M 1015 at . This overdensity is among the most massive large-scale structures at discovered to date.

AB - Cosmological simulations suggest a strong correlation between high optical-depth Lyα absorbers, which arise from the intergalactic medium, and 3D mass overdensities on scales of 10-30 comoving Mpc. By examining the absorption spectra of ∼80,000 QSO sight lines over a volume of 0.1 Gpc3 in the Sloan Digital Sky Survey III (SDSS-III), we have identified an extreme overdensity, BOSS1441, which contains a rare group of strong Lyα absorbers at . This absorber group is associated with six QSOs at the same redshift on a 30 comoving Mpc scale. Using Mayall/MOSAIC narrowband and broadband imaging, we detect Lyα emitters (LAEs) down to and reveal a large-scale structure of LAEs in this field. Our follow-up LBT observations have spectroscopically confirmed 20 galaxies in the density peak. We show that BOSS1441 has an LAE overdensity of 10.8 2.6 on a 15 comoving Mpc scale, which could collapse to a massive cluster with M 1015 at . This overdensity is among the most massive large-scale structures at discovered to date.

KW - galaxies: clusters: general

KW - galaxies: high-redshift

KW - intergalactic medium

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Mapping the Most Massive Overdensities through Hydrogen (MAMMOTH). II. Discovery of the Extremely Massive Overdensity BOSS1441 at z = 2.32

Abstract

Keywords

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