Fingerprinting dark energy. II. Weak lensing and galaxy clustering tests

Sapone, Domenico; Kunz, Martin; Amendola, Luca

Abstract

The characterization of dark energy is a central task of cosmology. To go beyond a cosmological constant, we need to introduce at least an equation of state and a sound speed and consider observational tests that involve perturbations. If dark energy is not completely homogeneous on observable scales, then the Poisson equation is modified and dark matter clustering is directly affected. One can then search for observational effects of dark energy clustering using dark matter as a probe. In this paper we exploit an analytical approximate solution of the perturbation equations in a general dark energy cosmology to analyze the performance of next-decade large-scale surveys in constraining equation of state and sound speed. We find that tomographic weak lensing and galaxy redshift surveys can constrain the sound speed of the dark energy only if the latter is small, of the order of c(s) less than or similar to 0.01 (in units of c). For larger sound speeds the error grows to 100% and more. We conclude that large-scale structure observations contain very little information about the perturbations in canonical scalar field models with a sound speed of unity. Nevertheless, they are able to detect the presence of cold dark energy, i.e. a dark energy with non-relativistic speed of sound.

Más información

Título según WOS: ID WOS:000290388300002 Not found in local WOS DB
Título de la Revista: PHYSICAL REVIEW D
Volumen: 82
Número: 10
Editorial: AMER PHYSICAL SOC
Fecha de publicación: 2010
DOI:

10.1103/PhysRevD.82.103535

Notas: ISI