The Power Spectrum of Cosmological Number Densities
Abstract
We study the cosmological power spectra (PS) of the differential and integral galaxy volume number densities γi and γi*, constructed with the cosmological distances di (i=A,G,L,Z), where dA is the angular diameter distance, dG is the galaxy area distance, dL is the luminosity distance and dz is the redshift distance. Theoretical and observational quantities were obtained in the FLRW spacetime with a non-vanishing . The radial correlation i, as defined in the context of these densities, is discussed in the wave number domain. All observational quantities were computed using luminosity function (LF) data obtained from the FORS Deep Field galaxy survey. The theoretical and observational PS of γi, γi, i and γi / γi were calculated by performing Fourier transforms on these densities previously derived by Iribarrem et al. (2012) from the observed values γobs and γobs obtained using the galactic absolute magnitudes and galaxy LF Schechter's parameters presented in Gabasch et al. (2004, 2006) in the range 0.5 z 5.0. The results show similar behavior of the PS obtained from γ and γ using dL, dz and dG as distance measures. The PS of the densities defined with dA have a different and inconclusive behavior, as this cosmological distance reaches a maximum at z≈ 1.6 in the adopted cosmology. For the other distances, our results suggest that the PS of γiobs, γiobs and γi / γiobs have a general behavior approximately similar to the PS obtained with the galaxy two-point correlation function and, by being sample size independent, they may be considered as alternative analytical tools to study the galaxy distribution.
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