How much primordial tensor mode is allowed?

Abstract

The presence of a significant amount of gravitational radiation in the early Universe affects the total energy density and hence the expansion rate in the early epoch. In this work, we develop a physical model to connect the parameter of relativistic degree of freedom Neff with the amplitude and shape of primordial tensor power spectrum, and use the CMB temperature and polarization data from Planck and BICEP2/KECK Array, and the primordial deuterium measurement from damped Lyman-α (DLA) systems to constrain this model. We find that with this extra relation N eff(r,n t), the tensor-to-scalar ratio r is constrained to be r<0.07 (3σ C.L.) and the tilt of tensor power spectrum is nt=-0.01 0.31 (1σ C.L.) for Planck+BICEP2+KECK+[D/H] data. This achieves a much tighter constraint on the tensor spectrum and provides a stringent test for cosmic inflation models. In addition, the current constraint on N eff=3.122 0.171 excludes the possibility of fourth neutrino species at more than 5σ C.L.