The lack of power anomaly is an intriguing feature at the largest angular scales of the CMB anisotropy temperature pattern, whose statistical significance is not strong enough to claim any new physics beyond the standard cosmological model. We revisit the former statement by also considering polarisation data. We propose a new one-dimensional estimator which takes jointly into account the information contained in the TT, TE and EE CMB spectra. By employing this estimator on PLANCK 2015 low-ℓ data, we find that a random ΛCDM realisation is statistically accepted at the level of 3.68%. Even though PLANCK polarisation contributes a mere 4% to the total information budget, its use pushes the lower-tail-probability down from the 7.22% obtained with only temperature data. Forecasts of future CMB polarised measurements, as e.g. the LiteBIRD satellite, can increase the polarisation contribution up to 6 times with respect to PLANCK at low-ℓ. We argue that the large-scale E-mode polarisation may play an important role in analysing CMB temperature anomalies with future mission.
Polarisation as a tracer of CMB anomalies: PLANCK results and future forecasts
Gruppuso A.
Secondo
;Mandolesi N.;Moscardini L.Penultimo
;Natoli P.Ultimo
2019
Abstract
The lack of power anomaly is an intriguing feature at the largest angular scales of the CMB anisotropy temperature pattern, whose statistical significance is not strong enough to claim any new physics beyond the standard cosmological model. We revisit the former statement by also considering polarisation data. We propose a new one-dimensional estimator which takes jointly into account the information contained in the TT, TE and EE CMB spectra. By employing this estimator on PLANCK 2015 low-ℓ data, we find that a random ΛCDM realisation is statistically accepted at the level of 3.68%. Even though PLANCK polarisation contributes a mere 4% to the total information budget, its use pushes the lower-tail-probability down from the 7.22% obtained with only temperature data. Forecasts of future CMB polarised measurements, as e.g. the LiteBIRD satellite, can increase the polarisation contribution up to 6 times with respect to PLANCK at low-ℓ. We argue that the large-scale E-mode polarisation may play an important role in analysing CMB temperature anomalies with future mission.File | Dimensione | Formato | |
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