Gauss-Bonnet assisted braneworld inflation in light of BICEP2 and Planck data

Abstract

Motivated by the idea that quantum gravity corrections usually suppress the power of the scalar primordial spectrum (E-mode) more than the power of the tensor primordial spectrum (B-mode), in this paper we construct a concrete gravitational theory in five-dimensions for which V(φ) φn-type inflation (n 1) generates an appropriate tensor-to-scalar ratio that may be compatible with the BICEP2 and Planck data together. The true nature of gravity is five-dimensional and described by the action S = ∫ d5x |g| M3 (- 6λ M2 + R + α M-2 R2) where M is the five-dimensional Planck mass and R2=R2-4 Rab Rab + Rabcd Rabcd is the Gauss-Bonnet (GB) term. The five-dimensional "bulk" spacetime is anti-de Sitter (λ<0) for which inflation ends naturally. The effects of R2 term on the magnitudes of scalar and tensor fluctuations and spectral indices are shown to be important at the energy scale of inflation. For GB-assisted m2φ2-inflation, inflationary constraints from BICEP2 and Planck, such as, ns 0.9603 ( 0.0073), r=0.16 (+0.06-0.05) and V*1/4 1.5× 1016 GeV are all satisfied for (-λ α) (3-300)× 10-5.