Generic no-scale inflation inspired from string theory compactifications

Abstract

We propose the generic no-scale inflation inspired from string theory compactifications. We consider the K\"ahler potentials with an inflaton field , as well as one, two, and three K\"ahler moduli. Also, we consider the renormalizable superpotential of in general. We study the spectral index and tensor-to-scalar ratio in details, and find the viable parameter spaces which are consistent with the Planck and BICEP/Keck experimental data on the cosmic microwave background (CMB). The spectral index is ns 1-2/N 0.965 for all models, and the tensor-to-scalar ratio r is r12/N2, 83/N4 and 4/N2 for the one, two and three moduli models, respectively. The particular r for two moduli model comes from the contributions of the non-negligible higher order term in potential. In the three moduli model, the scalar potential is similar to the global supersymmetry, but the K\"ahler potential is different. The E-model with α=1 and T-model with α=1/3 can be realized in the one modulus model and the three moduli model, respectively. Interestingly, the models with quadratic and quartic potentials still satisfy the current tight bound on r after embedding into no-scale supergravity.

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