A measurement of the scale of homogeneity in the Early Universe
Abstract
We present the first measurement of the homogeneity index, H, a fractal or Hausdorff dimension of the early Universe from the Planck CMB temperature variations δ T in the sky. This characterization of the isotropy scale is model-free and purely geometrical, independent of the amplitude of δ T. We find evidence of homogeneity (H=0) for scales larger than θH = 65.9 9.2 on the CMB sky. This finding is at odds with the prediction, which assumes a scale invariant infinite universe. Such anomaly is consistent with the well known low quadrupule amplitude in the angular δ T spectrum, but quantified in a direct and model independent way. We estimate the significance of our finding for H=0 using a principal component analysis from the sampling variations of the observed sky. This analysis is validated with theoretical prediction of the covariance matrix black and simulations, booth base purely on data or in the prediction. Assuming translation invariance (and flat geometry) we can convert the isotropy scale θH into a (comoving) homogeneity scale which is very close to the trapped surface generated by the observed cosmological constant .
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