Sensitivity of Redshift Distortion Measurements to Cosmological Parameters
Abstract
The multipole moments of the power spectrum of large scale structure, observed in redshift space, are calculated for a finite sample volume including the effects of both the linear velocity field and geometry. A variance calculation is also performed including the effects of shot noise. The sensitivity with which a survey with the depth and geometry of the Sloan Digital Sky Survey (SDSS) can measure cosmological parameters 0 and b0 (the bias) or λ0 (the cosmological constant) and b0 is derived through fitting power spectrum moments to the large scale structure in the linear regime in a way which is independent of the evolution of the galaxy number density. We find that for surveys of the approximate depth of the SDSS no restrictions can be placed on 0 at the 99% confidence limit when a fiducial open, 0 = 0.3 model is assumed and bias is unconstrained. At the 95% limit, 0 < .85 is ruled out. Furthermore, for this fiducial model, both flat (cosmological constant) and open models are expected to reasonably fit the data. For flat, cosmological constant models with a fiducial 0 = 0.3, we find that models with 0 > 0.48 are ruled out at the 95% confidence limit regardless of the choice of the bias parameter, and open models cannot fit the data even at the 99% confidence limit.
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