Detecting relic gravitational waves in the CMB: Optimal parameters and their constraints

Abstract

The prospect of detecting relic gravitational waves (RGWs), through their imprint in the cosmic microwave background radiation, provides an excellent opportunity to study the very early Universe. In simplest viable theoretical models the RGW background is characterized by two parameters, the tensor-to-scalar ratio r and the tensor spectral index nt. In this paper, we analyze the potential joint constraints on these two parameters, r and nt, using the data from the upcoming cosmic microwave background radiation experiments. Introducing the notion of the best pivot multipole t*, we find that at this pivot multipole the parameters r and nt are uncorrelated, and have the smallest variances. We derive the analytical formulae for the best pivot multipole number t*, and the variances of the parameters r and nt. We verify these analytical calculations using numerical simulation methods, and find agreement to within 20%. The analytical results provides a simple way to estimate the detection ability for the relic gravitational waves by the future observations of the cosmic microwave background radiation.