The CMB Quadrupole depression produced by early fast-roll inflation: MCMC analysis of WMAP and SDSS data

Abstract

Generically,the classical evolution of the inflaton has a brief fast roll stage that precedes the slow roll regime. The fast roll stage leads to a purely attractive potential for the curvature and tensor perturbations (this potential is purely repulsive in slowroll). This attractive potential depresses the CMB quadrupole moment for the curvature and B-mode spectra. A single new cosmological parameter emerges: the comoving wavenumber k1 characteristic scale of this attractive potential.k1 happens to exit the horizon precisely at the transition from fast to slowroll.The fastroll stage dynamically modifies the initial power spectrum by a transfer function D(k). We compute D(k) by solving the inflaton evolution equations. D(k) suppresses the primordial power for k < k1 and enjoys the scaling property D(k) = Psi(k/k1) where Psi(x) is an universal function. We perform a MCMC analysis of the WMAP/SDSS data including the fast-roll stage and find k1 = 0.266/Gpc. The quadrupole mode kQ = 0.242/Gpc exits the horizon 1/10 of an efold before k1. We compare the fastroll fit with a fit with a sharp lower cutoff on the primordial power. Fastroll provides a slightly better fit than a sharp cutoff for the TT,TE and EE modes.Moreover, our fits provide non-zero lower bounds for r, while for the other cosmological parameters we essentially get those of the LCDM model. The fact that kQ exits the horizon before the slowroll stage implies an upper bound in the total number of efolds Ntot during inflation.Combining this with estimates during the radiation dominated era we obtain Ntot ~ 66, with the bounds 62 < Ntot < 82.We repeated the analysis with the WMAP-5/ACBAR-2007/SDSS data confirming the overall picture.