Voids and superstructures: correlations and induced large-scale velocity flows

Abstract The expanding complex pattern of filaments, walls and voids build the evolving cosmic web with material flowing from underdense on to high density regions. Here, we explore the dynamical behaviour of voids and galaxies in void shells relative to neighbouring overdense superstructures, using...

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Veröffentlicht in:Monthly notices of the Royal Astronomical Society 2017-09, Vol.470 (1), p.85-94
Hauptverfasser: Lares, Marcelo, Luparello, Heliana E., Maldonado, Victoria, Ruiz, Andrés N., Paz, Dante J., Ceccarelli, Laura, Garcia Lambas, Diego
Format: Artikel
Sprache:eng
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Zusammenfassung:Abstract The expanding complex pattern of filaments, walls and voids build the evolving cosmic web with material flowing from underdense on to high density regions. Here, we explore the dynamical behaviour of voids and galaxies in void shells relative to neighbouring overdense superstructures, using the Millenium simulation and the main galaxy catalogue in Sloan Digital Sky Survey data. We define a correlation measure to estimate the tendency of voids to be located at a given distance from a superstructure. We find voids-in-clouds (S-types) preferentially located closer to superstructures than voids-in-voids (R-types) although we obtain that voids within ∼40 h −1 Mpc of superstructures are infalling in a similar fashion independently of void type. Galaxies residing in void shells show infall towards the closest superstructure, along with the void global motion, with a differential velocity component depending on their relative position in the shell with respect to the direction to the superstructure. This effect is produced by void expansion and therefore is stronger for R-types. We also find that galaxies in void shells facing the superstructure flow towards the overdensities faster than galaxies elsewhere at the same relative distance to the superstructure. The results obtained for the simulation are also reproduced for the Sky Survey Data Release data with a linearized velocity field implementation.
ISSN:0035-8711
1365-2966
DOI:10.1093/mnras/stx1227