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20 April 2024

» arxiv » astro-ph/9505099

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The Stromlo-APM Redshift Survey III. Redshift Space Distortions, Omega and Bias
J. Loveday ; G. Efstathiou ; S.J. Maddox ; B.A. Peterson ;
Date:	22 May 1995
Journal:	Astrophys.J. 468 (1996) 1
Subject:	astro-ph
Affiliation:	FNAL), G. Efstathiou (Oxford), S.J. Maddox (RGO) and B.A. Peterson (MSSSO
Abstract:	Galaxy redshift surveys provide a distorted picture of the universe due to the non-Hubble component of galaxy motions. By measuring such distortions in the linear regime one can constrain the quantity $eta = Omega^{0.6}/b$ where $Omega$ is the cosmological density parameter and $b$ is the (linear) bias factor for optically-selected galaxies. In this paper we apply two techniques for estimating $eta$ from the Stromlo-APM redshift survey --- (1) measuring the anisotropy of the redshift space correlation function in spherical harmonics and (2) comparing the amplitude of the direction-averaged redshift space correlation function to the real space correlation function. We test the validity of these techniques, particularly whether the assumption of linear theory is justified, using two sets of large $N$-body simulations. We find that the first technique is affected by non-linearities on scales up to $sim 30 hMpc$. The second technique is less sensitive to non-linear effects and so is more useful for existing redshift surveys. The Stromlo-APM survey data favours a low value for $eta$, with $eta simlt 0.6$. A bias parameter $b approx 2$ is thus required if $Omega equiv 1$. However, higher-order correlations measured from the APM galaxy survey (Gazta~{n}aga and Frieman 1994) indicate a low value for the bias parameter $b approx 1$, requiring that $Omega simlt 0.5$. We also measure the relative bias for samples of galaxies of various luminosity and morphological type and find that low-luminosity galaxies are roughly three times less biased than $L^*$ galaxies. For the galaxy population as a whole, we measure a real space variance of galaxy counts in $8 hMpc$ spheres of $(sigma^2_8)_g = 0.89 pm 0.05$.
Source:	arXiv, astro-ph/9505099
Other source:	[GID 643783] astro-ph/9505099
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