Cosmological parameters and the WMAP data revisited

Abstract

Several recent papers have made claims about the detection of an asymmetric distribution of large scale power in the cosmic microwave background anisotropy as measured by the WMAP satellite. In this paper, we investigate how the estimates of particular cosmological parameters vary when inferred from power spectra computed separately on the northern and southern hemispheres in three frames of reference. We focus our investigation on the three specific parameters to which the analysis is most sensitive, the spectral index n, the amplitude of fluctuations A and the optical depth tau. When using a gaussian prior on the spectral index n centred at n=1 with a flat prior on the optical depth tau, the preferred value for the optical depth (derived in the reference frame of maximum asymmetry) in the north is tau=0 with upper limit tau<0.08, whereas in the south we find tau=0.24 +0.06/-0.07 (68% confidence level). The latter result is inconsistent with tau=0 at the 2 sigma level. The estimated optical depth of tau=0.17 on the (nearly) full sky found by the WMAP collaboration and confirmed independently here, could thus in large part originate in structure associated with the southern hemisphere. Furthermore, putting a prior on tau, we find values of the spectral index which are inconsistent between the opposite hemispheres. The exact values depend on the prior on tau. While our results should not be considered more than suggestive, the significance of the parameter differences in the two hemispheres being typically of order 2 sigma, if they are confirmed with the higher sensitivity WMAP 2-year data then it may be necessary to question the assumption of cosmological isotropy and the conceptual framework within which studies of the CMB anisotropy are made.