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Redshifting rings of power

2003; American Physical Society; Volume: 68; Issue: 6 Linguagem: Inglês

10.1103/physrevd.68.063004

1538-4500

Wayne Hu, Zoltán Haiman,

Cosmology and Gravitation Theories

The cosmic microwave background (CMB) has provided a precise template for features in the linear power spectrum: the matter-radiation turnover, sound horizon drop, and acoustic oscillations. In a two-dimensional power spectrum in redshift and angular space, the features appear as distorted rings, and yield simultaneous, purely geometric, measures of the Hubble parameter $H(z)$ and angular diameter distance ${D}_{A}(z)$ via an absolute version of the Alcock-Paczynski test. Employing a simple Fisher matrix tool, we explore how future surveys can exploit these rings of power for dark energy studies. High-z CMB determinations of H and ${D}_{A}$ are best complemented at moderate to low redshift $(z\ensuremath{\lesssim}0.5)$ with a population of objects that are at least as abundant as clusters of galaxies. We find that a sample similar to that of the ongoing SDSS luminous red galaxy survey can achieve statistical errors at the $\ensuremath{\sim}5%$ level for ${D}_{A}(z)$ and $H(z)$ in several redshift bins. This, in turn, implies errors of $\ensuremath{\sigma}(w)=0.03--0.05$ for a constant dark energy equation of state in a flat universe. Deep galaxy cluster surveys such as the planned South Pole Telescope survey can extend this test out to $z\ensuremath{\sim}1$ or as far as redshift follow-up is available. We find that the expected constraints are at the $\ensuremath{\sigma}(w)=0.04--0.08$ level, comparable to those of galaxies and complementary in redshift coverage.