The DWT Power Spectrum of the two-degree Field Galaxy Redshift Survey

Abstract

The power spectrum of the two-degree Field Galaxy Redshift Survey (2dFGRS) sample is estimated with the discrete wavelet transform (DWT) method. The DWT power spectra within 0.04 <k< 2.3 hMpc-1 are measured for three volume-limited samples defined in connective absolute magnitude bins -19 -18, -20 -19 and -21 -20. We show that the DWT power spectrum can effectively distinguish models of σ8=0.84 and σ8=0.74. We adopt maximum likelihood method to perform three-parameter fitting with bias parameter b, pairwise velocity dispersion σpv and redshift distortion parameter β=m0.6/b to the measured DWT power spectrum. Fitting results denotes that in a σ8=0.84 universe the best fitted m given by the three samples are consistent in the range 0.28 0.36, and the best fitted σpv are 398+35-27, 475+37-29 and 550 20km/s for the three samples, respectively. However in the model of σ8=0.74, our three samples give very different values of m. We repeat the fitting by using empirical formula of redshift distortion. The result of the model of low σ8 is still poor, especially, one of the best value σpv is as large as 103km/s. The power spectrum of 2dFGRS seems in disfavor of models with low amplitude of density fluctuations.