Optimistic estimation on probing primordial gravitational waves with CMB B-mode polarization

Abstract

In the measurements of cosmic microwave background polarizations, three frequency channels are necessary for discriminating the primordial B-modes from the polarized dust and the synchrotron emission. We carry out an optimistic estimate on the sensitivity to the detection of primordial gravitational waves using the cosmic microwave background B-modes only, and explore how to reach the thresholds for the tensor-to-scalar ratio r in the theoretically well-motivated inflation models. For example, Lyth bound implies r 2×10-3, a corrected Lyth bound shows r 7×10-4, and some typical inflation models gives r4×10-5. Taking into account the up-to-date constraints on r, i.e. r0.05<0.07 at 95\% confidence, we find that the consistency relation nt=-r/8 in the canonical single-field slow-roll inflation cannot be distinguished from the scale invariance, due to the cosmic variance in the power spectrum of cosmic microwave background B-modes. The cosmic variance places an inevitable limit on the measurements of the tensor spectral index, i.e. σnt0.01 for 2≤slant≤slant max=300.