The Evens and Odds of CMB Anomalies

Abstract

The lack of power of large--angle CMB anisotropies is known to increase its statistical significance at higher Galactic latitudes, where a string--inspired pre--inflationary scale can also be detected. Considering the Planck 2015 data, and relying largely on a Bayesian approach, we show that the effect is mostly driven by the even-- harmonic multipoles with 20, which appear sizably suppressed in a way that is robust with respect to Galactic masking, along with the corresponding detections of . On the other hand, the first odd-- multipoles are only suppressed at high Galactic latitudes. We investigate this behavior in different sky masks, constraining through even and odd multipoles, and we elaborate on possible implications. We include low-- polarization data which, despite being noise--limited, help in attaining confidence levels of about 3 σ in the detection of . We also show by direct forecasts that a future all--sky E--mode cosmic--variance--limited polarization survey may push the constraining power for beyond 5 σ.