Shape Invariant Potentials in Supersymmetric Quantum Cosmology
Abstract
In this brief review, we comment on the concept of shape invariant potentials, which is an essential feature in many settings of supersymmetric quantum mechanics. To motivate its application within supersymmetric quantum cosmology, we present a case study to illustrate the value of this promising tool. Concretely, we take a spatially flat FRW model in the presence of a single scalar field, minimally coupled to gravity. Then, we extract the associated Schr\"odinger-Wheeler-DeWitt equation, allowing for a particular scope of factor ordering. Subsequently, we compute the corresponding supersymmetric partner Hamiltonians, and . Moreover, we point out how the shape invariance property can be employed to bring a relation among several factor orderings choices for our Schr\"odinger-Wheeler-DeWitt equation. The ground state is retrieved, and the excited states easily written. Finally, the Hamiltonians, and are explicitly presented within a supersymmetric quantum mechanics framework.
Cite
@article{arxiv.2206.00083,
title = {Shape Invariant Potentials in Supersymmetric Quantum Cosmology},
author = {S. Jalalzadeh and S. M. M. Rasouli and P. V. Moniz},
journal= {arXiv preprint arXiv:2206.00083},
year = {2022}
}
Comments
19 pages, 3 figures, Review article, contribution to the special issue on "Quantum Cosmology" in Universe