Analytic Spectra of CMB Anisotropies and Polarization Generated by Relic Gravitational Waves with Modification due to Neutrino Free-Streaming

Abstract

We present an analytical calculation of the spectra of CMB anisotropies and polarizations generated by relic gravitational waves (RGWs). As a substantial extension to the previous studies, three new ingredients are included in this work. Firstly, the analytic ClTT and ClTE are given; especially the latter can be useful to extract signal of RGWs from the observed data in the zero multipole method. Secondly, a fitting formula of the decaying factor on small scales is given, coming from the visibility function around the photon decoupling. Thirdly, the impacts by the neutrino free-streaming (NFS) is examined, a process that occurred in the early universe and leaves observable imprints on CMB via RGWs. It is found that the analytic ClTT and ClTE have profiles agreeing with the numeric ones, except that CTTl in a range l 10 and the 1st trough of ClTE around l 75 have some deviations. With the new damping factor, the analytic CEEl and CBBl match with the numeric ones with the maximum errors only 3% up to the first three peaks for l 600, improving the previous studies substantially. The correspondence of the positions of peaks of CXXl and those of RGWs are also demonstrated explicitly. We also find that NFS reduces the amplitudes of CXXl by (20% 35%) for l(100 600) and shifts slightly their peaks to smaller angles. Detailed analyses show that the zero multipoles l0, where ClTE crosses 0, are shifted to larger values by NFS. This shifting effect is as important as those causedby different inflation models and different baryon fractions.