Constraints on the primordial gravitational waves with variable sound speed from current CMB data

Abstract

We make a comprehensive investigation of the observational effect of the inflation consistency relation. We focus on the general single-field inflation model with the consistency relation r=-8cs nt, and investigate the observational constraints of sound speed cs by using the Seven-Year WMAP data, the BICEP tensor power spectrum data, and the constraints on f NL equil. and f NL orth. from the Five-Year WMAP observations. We find that the constraints on the tensor-to-scalar ratio r is much tighter if cs is small, since a large tilt nt is strongly constrained by the observations. We obtain r<0.37, 0.27 and 0.09 (dns/d k=0) for cs=1, 0.1 and 0.01 models at 95.4% confidence level. When taking smaller values of cs, the positive correlation between r and ns also leads to slightly tighter constraint on the upper bound of ns, while the running of scalar spectral index dns/d k is generally unaffected. For the sound speed cs, it is not well constrained if only the CMB power spectrum data is used, while the constraints are obtainable by taking f NL equil. and f NL orth. priors into account. With the constraining data of f NL equil. and f NL orth., we find that, cs 0.01 region is excluded at 99.7% CL, and the cs=1 case (the single-field slow-roll inflation) is slightly disfavored at 68.3% CL. In addition, the inclusion of f NL equil. and f NL orth. into the analysis can improve the constraints on r and ns. We further discuss the implications of our constraints on the test of inflation models.