Cosmological Redshift Distortion of Correlation Functions as a Probe of the Density Parameter and the Cosmological Constant

Abstract

We propose cosmological redshift-space distortion of correlation functions of galaxies and quasars as a probe of both the density parameter 0 and the cosmological constant λ0. In particular, we show that redshift-space distortion of quasar correlation functions at z2 can in principle set a constraint on the value of λ0. This is in contrast to the popular analysis of galaxy correlation functions in redshift space which basically determines 00.6/b, where b is the bias parameter, but is insensitive to λ0. For specific applications, we present redshift-space distortion of correlation functions both in cold dark matter models and in power-law correlation function models, and discuss the extent to which one can discriminate between the different λ0 models.

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