Phenomenological inflationary model in Supersymmetric Quantum Cosmology

N.E. Mart\'inez-P\'erez; C. Ram\'irez; V.M. V\'azquez B\'aez

arXiv:2208.04412·gr-qc·August 17, 2022

Phenomenological inflationary model in Supersymmetric Quantum Cosmology

N.E. Mart\'inez-P\'erez, C. Ram\'irez, V.M. V\'azquez B\'aez

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TL;DR

This paper explores a supersymmetric quantum cosmology model with a scalar field acting as both clock and inflaton, demonstrating compatibility with PLANCK data on inflationary parameters.

Contribution

It introduces a phenomenological inflationary model within FLRW supersymmetric quantum cosmology using specific superpotentials that align with observational evidence.

Findings

01

Model matches PLANCK tensor-to-scalar ratio

02

Model reproduces observed scalar spectral index

03

Inflationary dynamics consistent with quantum cosmology

Abstract

We consider the effective evolution of a phenomenological model from FLRW supersymmetric quantum cosmology with a scalar field. The scalar field acts as a clock and inflaton. We examine a family of simple superpotentials that produce an inflation whose virtual effect on inhomogeneous fluctuations shows very good agreement with PLANCK observational evidence for the tensor-to-scalar ratio and the scalar spectral index.

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