Voids in Real Space and in Redshift Space
Open Access
- 1 October 1996
- journal article
- Published by American Astronomical Society in The Astrophysical Journal
- Vol. 470, 160
- https://doi.org/10.1086/177857
Abstract
Using two-dimensional numerical simulations of gravitational clustering, with initial power spectra of a power-law form with index n, we compare the properties of voids in real space to their properties in redshift space. Both the void probability function (VPF) and the underdense probability function (UPF) are enhanced in redshift space. The enhancement is greatest in the limit n=-2. The VPF and UPF treat voids statistically and assume that two-dimensional voids are circular; we present an algorithm which detects individual voids. Voids found by this algorithm are ellipses whose enclosed density of galaxies falls below a threshold density. When voids are identified using this algorithm, the mean void size and the maximum void size both increase in going from real space to redshift space. The increase is greatest in the limit n=-2. In redshift space, the principal axes of the largest voids in the n=2 and n=0 simulations show a statistically significant tendency (at the 95% confidence level) to be distributed anisotropically, relative to the line of sight from the origin to the void center.Keywords
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