Approximate Analytic Spectra of Reionized CMB Anisotropies and Polarization generated by Relic Gravitational Waves

Abstract

We present an approximate, analytical calculation of the reionized spectra ClXX of cosmic microwave background radiation (CMB) anisotropies and polarizations generated by relic gravitational waves (RGWs). Three simple models of reionization are explored, whose visibility functions are fitted by gaussian type of functions as approximations. We have derived the analytical polarization βl and temperature anisotropies αl, both consisting of two terms proportional to RGWs at the decoupling and at the reionization as well. The explicit dependence of βl and αl upon the reionization time ηr, the duration ηr, and the optical depth r are demonstrated. Moreover, βl and αl contain r in different coefficients, and the polarization spectra ClEE are ClBB are more sensitive probes of reionization than ClTT. These results facilitate examination of the reionization effects, in particular, the degeneracies of r with the normalization amplitude and with the initial spectral index of RGWs. It is also found that reionization also causes a r-dependent shift l 20 of the zero multipole l0 of ClTE, an effect that should be included in order to detect the traces of RGWs. Compared with numerical results, the analytical ClXX as approximation have the limitation. For the primary peaks in the range l (30, 600), the error is 3% in three models. In the range l < 20 for the reionization bumps, the error is 15% for ClEE and ClBB in the two extended reionization models, and ClTT and ClTE have much larger departures for l<10. The bumps in the sudden reionization model are too low.