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Large Scale Overdensity of Lyman Break Galaxies Around the z=6.3 Ultraluminous Quasar J0100+2802

Authors :
Pudoka, Maria
Wang, Feige
Fan, Xiaohui
Yang, Jinyi
Champagne, Jaclyn
Jones, Victoria
Bian, Fuyan
Cai, Zheng
Jiang, Linhua
Liu, Dezi
Wu, Xue-Bing
Publication Year :
2024

Abstract

We study the environment of the z=6.33 ultraluminous quasar SDSS J010013.02+280225.8 (J0100) to understand its association with large-scale structure. Theoretical models propose high-redshift quasars as markers of galaxy overdensities residing in the most massive dark matter halos (DMHs) in the early universe. J0100 is an ultraluminous quasar with the most massive black hole known at z>6, suggesting a high likelihood of residing in a massive DMH. We present wide-field ($\sim$522 square arcminute) imaging in the r-, i-, and z-bands from the Large Binocular Camera on the Large Binocular Telescope, with Y- and J-band imaging from the Wide-field Infrared Camera on the Canada-France-Hawaii Telescope, centered on J0100. Applying color selections, we identify 23 objects as i-droput Lyman Break Galaxy (LBG) candidates in the J0100 field. We use the deep photometric catalog in the 1.27 square degree COSMOS field to calculate the density of LBGs in a blank field, and to estimate the selection completeness and purity. The observed surface density of LBG candidates in the J0100 field corresponds to a galaxy overdensity of $\delta$=4 (at 8.4$\sigma$). This large-scale overdensity suggests that the $\sim$ 22 square arcminute overdensity found by Kashino et al. using JWST data extends out to much larger scales. We calculate the angular auto-correlation function of the candidates and find a positive correlation on $\lesssim$ 10 arcminute scales as well as evidence of asymmetries in their spatial distribution, further suggesting a direct detection of large-scale structure around the ultra-luminous quasar J0100.<br />Comment: 21 pages, 11 figures, 3 tables, to be published in The Astrophysical Journal (ApJ)

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2405.03781
Document Type :
Working Paper
Full Text :
https://doi.org/10.3847/1538-4357/ad488a