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Main Authors: Arsenov, Nestor, Kovacs, Andras, Sar, Mar Perez, Bogdan, Agnes Sz., Sinigaglia, Francesco, Kitaura, Francisco-Shu, Favole, Ginevra, Slavcheva-Mihova, Lyuba
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.17696
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author Arsenov, Nestor
Kovacs, Andras
Sar, Mar Perez
Bogdan, Agnes Sz.
Sinigaglia, Francesco
Kitaura, Francisco-Shu
Favole, Ginevra
Slavcheva-Mihova, Lyuba
author_facet Arsenov, Nestor
Kovacs, Andras
Sar, Mar Perez
Bogdan, Agnes Sz.
Sinigaglia, Francesco
Kitaura, Francisco-Shu
Favole, Ginevra
Slavcheva-Mihova, Lyuba
contents Understanding the formation and evolution of the cosmic web of galaxies is a fundamental goal of cosmology, using various tracers of the cosmic large-scale structure at an ever wider range of redshifts. Our principal aim is to advance the mapping of the cosmic web at high redshifts using observational and synthetic catalogues of quasars (QSOs), which offer a powerful probe of structure formation and the validity of the concordance cosmological model. In this analysis, we selected 708,483 QSOs at $0.8<z<2.2$ from the Quaia data set, allowing a reconstruction of the matter density field using 24,372 deg$^2$ sky area with a well-understood selection function, and thus going beyond previous studies. Using the REVOLVER method, we created catalogues of voids and clusters based on the estimation of the local density at QSO positions with Voronoi tessellation. We tested the consistency of Quaia data and 50 mock catalogues, including various parameters of the voids and clusters in data subsets, and also measurements of the density profiles of these cosmic super-structures at $100 h^{-1}$Mpc scales. We identified 12,842 voids and 41,111 clusters in the distribution of Quaia QSOs. The agreement between data and mocks is at a level of 5-10%, considering void and cluster radii, average inner density, and density profiles. In particular, we tested the role of survey mask proximity effects in the void and cluster detection, which albeit present, are consistent in simulations and observations. The largest voids and clusters reach $R_{eff} \approx 250 h^{-1}$Mpc and $150 h^{-1}$Mpc, respectively, but without evidence for ultra-large cosmic structures exceeding the dimensions of the largest structures in the mocks. As an important deliverable, we share our density field estimation, void catalogues, and cluster catalogues with the public, allowing various additional cross-correlation probes at high-z.
format Preprint
id arxiv_https___arxiv_org_abs_2509_17696
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Tracing the high-z cosmic web with Quaia: catalogues of voids and clusters in the quasar distribution
Arsenov, Nestor
Kovacs, Andras
Sar, Mar Perez
Bogdan, Agnes Sz.
Sinigaglia, Francesco
Kitaura, Francisco-Shu
Favole, Ginevra
Slavcheva-Mihova, Lyuba
Cosmology and Nongalactic Astrophysics
Understanding the formation and evolution of the cosmic web of galaxies is a fundamental goal of cosmology, using various tracers of the cosmic large-scale structure at an ever wider range of redshifts. Our principal aim is to advance the mapping of the cosmic web at high redshifts using observational and synthetic catalogues of quasars (QSOs), which offer a powerful probe of structure formation and the validity of the concordance cosmological model. In this analysis, we selected 708,483 QSOs at $0.8<z<2.2$ from the Quaia data set, allowing a reconstruction of the matter density field using 24,372 deg$^2$ sky area with a well-understood selection function, and thus going beyond previous studies. Using the REVOLVER method, we created catalogues of voids and clusters based on the estimation of the local density at QSO positions with Voronoi tessellation. We tested the consistency of Quaia data and 50 mock catalogues, including various parameters of the voids and clusters in data subsets, and also measurements of the density profiles of these cosmic super-structures at $100 h^{-1}$Mpc scales. We identified 12,842 voids and 41,111 clusters in the distribution of Quaia QSOs. The agreement between data and mocks is at a level of 5-10%, considering void and cluster radii, average inner density, and density profiles. In particular, we tested the role of survey mask proximity effects in the void and cluster detection, which albeit present, are consistent in simulations and observations. The largest voids and clusters reach $R_{eff} \approx 250 h^{-1}$Mpc and $150 h^{-1}$Mpc, respectively, but without evidence for ultra-large cosmic structures exceeding the dimensions of the largest structures in the mocks. As an important deliverable, we share our density field estimation, void catalogues, and cluster catalogues with the public, allowing various additional cross-correlation probes at high-z.
title Tracing the high-z cosmic web with Quaia: catalogues of voids and clusters in the quasar distribution
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2509.17696