Lambda-inflation and CMB anisotropy

Abstract

We explore a broad class of three-parameter inflationary models, called the -inflation, and its observational predictions: high abundance of cosmic gravitational waves consistent with the Harrison-Zel'dovich spectrum of primordial cosmological perturbations, the non-power-law wing-like spectrum of matter density perturbations, high efficiency of these models to meet current observational tests, and others. We show that a parity contribution of the gravitational waves and adiabatic density perturbations into the large-scale temperature anisotropy, T/S 1, is a common feature of -inflation; the maximum values of T/S (basically not larger than 10) are reached in models where (i) the local spectrum shape of density perturbations is flat or slightly red (nS< 1), and (ii) the residual potential energy of the inflaton is near the GUT scale (V01/4 1016 GeV). The conditions to find large T/S in the paradigm of cosmic inflation and the relationship of T/S to the ratio of the power spectra, r, and to the inflationary γ and Hubble parameters, are discussed. We argue that a simple estimate, T/S 3r 12γ (H6× 1013 GeV)2, is true for most known inflationary solutions and allows to relate straightforwardly the important parameters of observational and physical cosmology.

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