Linear redshift space distortions for cosmic voids based on galaxies in redshift space

May 17, 2016
10 pages
Published in:
  • Phys.Rev.D 95 (2017) 6, 063528
  • Published: Mar 30, 2017
e-Print:

Citations per year

20162018202020222024024681012
Abstract: (APS)
Cosmic voids found in galaxy surveys are defined based on the galaxy distribution in redshift space. We show that the large scale distribution of voids in redshift space traces the fluctuations in the dark matter density field δ^(k) (in Fourier space with μ being the line-of-sight projected k vector), δ^vs(k)=(1+βvμ2)bvsδ^(k), with a beta factor that will be, in general, different than the one describing the distribution of galaxies. Only if voids are assumed to be quasilocal transformations of the linear (Gaussian) galaxy redshift space field does one get equal beta factors βv=βg=f/bg with f being the growth rate and bg, bvs being the galaxy and void bias on large scales defined in redshift space. Indeed, in our mock void catalogs, we measure void beta factors in good agreement with the galaxy one. Further work needs to be done to confirm the level of accuracy of the beta factor equality between voids and galaxies, but in general the void beta factor needs to be considered as a free parameter for linear RSD studies.
Note:
  • 10 pages, 9 figures; matches the version accepted by PRD
  • 98.80.-k
  • 98.80.Es
  • 98.65.Dx
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