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

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arxiv 1605.05352 v2 pith:HFO4FXZ6 submitted 2016-05-17 astro-ph.CO

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

classification astro-ph.CO
keywords betaspaceredshiftgalaxyvoidsvoiddeltadistribution
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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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 \delta(k) (in Fourier space with \mu being the line of sight projected k-vector): \delta_v^s(k) = (1 + \beta_v \mu^2) b^s_v \delta(k), with a beta factor that will be in general different than the one describing the distribution of galaxies. Only in case voids could be assumed to be quasi-local transformations of the linear (Gaussian) galaxy redshift space field, one gets equal beta factors \beta_v=\beta_g=f/b_g with f being the growth rate, and b_g, b^s_v being the galaxy and void bias on large scales defined in redshift space. Indeed, in our mock void catalogs we measure void beta factors being 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 RSD studies.

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Cited by 2 Pith papers

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  1. Cosmological constraints from neighbor-density-weighted marked correlation functions

    astro-ph.CO 2026-05 unverdicted novelty 5.0

    Neighbor-density-weighted marked correlation functions improve FoM for Ωm–σ8 by 1.7–2.5× over standard 2PCF using Gaussian-process emulators on 129 w0waCDM+∑mν simulations.

  2. Cosmological constraints from neighbor-density-weighted marked correlation functions

    astro-ph.CO 2026-05 unverdicted novelty 5.0

    Neighbor-density-weighted marked correlation functions improve FoM for Ω_m–σ_8 by 1.7–2.5× over standard 2PCF using emulators from 129 w0waCDM+∑m_ν simulations.