Constraints on perfect fluid and scalar field dark energy models from future redshift surveys
Abstract
We discuss the constraints that future photometric and spectroscopic redshift surveys can put on dark energy through the baryon oscillations of the power spectrum. We model the dark energy either with a perfect fluid or a scalar field and take into account the information contained in the linear growth function. We show that the growth function helps to break the degeneracy in the dark energy parameters and reduce the errors on w0,w1 roughly by 30% making more appealing multicolor surveys based on photometric redshifts. We find that a 200 square degrees spectroscopic survey reaching z = 3 can constrain w0,w1 to within w0=0.21, w1=0.26 and to w0=0.39, w1=0.54 using photometric redshifts with absolute uncertainty of 0.02. In the scalar field case we show that the slope n of the inverse power-law potential for dark energy can be constrained to n=0.26 (spectroscopic redshifts) or n=0.40 (photometric redshifts), i.e. better than with future ground-based supernovae surveys or CMB data.
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