Power Suppression and Lensing Anomaly -- A phenomenological investigation
Abstract
Primordial power spectra with low power at long wavelengths can alleviate lensing anomaly. However the extent to which data favours such a primordial spectra is not clear. In this work, we investigate power suppression and related mitigation of lensing anomaly with the help of phenomenological models which are valid over scales of interest. We consider simple extensions to nearly scale invariant power spectra such as those which includes running and running of running of spectral index. We perform Bayesian analysis of these models, which are agnostic about power suppression, with various data sets and show that data tend to choose parameters which leads to power suppression at low multipoles. We then analyse the significance of these findings using information criteria. Further, we investigate the ability of near-ultimate future CMB missions such as ECHO to put tighter constraints on these models. We conclude that we can make stronger conclusions about the presence of power suppression in the future by studying such simple phenomenological models.