Measurement of the power spectrum turnover scale from the cross-correlation between CMB lensing and Quaia

Abstract

We use the projected clustering of quasars in the Gaia-unWISE quasar catalog, Quaia, and its cross-correlation with CMB lensing data from Planck, to measure the large-scale turnover of the matter power spectrum, associated with the size of the horizon at the epoch of matter-radiation equality. The turnover is detected with a significance of between 2.3 and 3.1σ, depending on the method used to quantify it. From this measurement, the equality scale is determined at the 20\% level. Using the turnover scale as a standard ruler alone (suppressing information from the large-scale curvature of the power spectrum), in combination with supernova data through an inverse distance ladder approach, we measure the current expansion rate to be H0=62.717.2\, km\, s-1\, Mpc-1. The addition of information coming from the power spectrum curvature approximately halves the standard ruler uncertainty. Our measurement in combination with calibrated supernovae from Pantheon+ and SH0ES constrains the CMB temperature to be T CMB=3.10+0.48-0.36\, K, independently of CMB data. Alternatively, assuming the value of T CMB from COBE-FIRAS, we can constrain the effective number of relativistic species in the early Universe to be N eff=3.0+5.8-2.9.

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