Supersymmetry as an Algebraic Approach to the Jaynes-Cumming Model with Stark Shift and Kerr-Like Medium

Farghly, Rasha Mohamed; Abdal-Mubark, Mohamed Rabiia; Mohamed, Sara Hassan

doi:10.21608/aunj.2023.169688.1037

Supersymmetry as an Algebraic Approach to the Jaynes-Cumming Model with Stark Shift and Kerr-Like Medium

Document Type : Novel Research Articles

Authors

¹ Department of Mathematics, Minia University, El-minia, Egypt

² Dept of Mathematics, Minia University, El-minia, Egypt

³ Dept. of Mathematics, Minia University, El-Minia, Egypt

10.21608/aunj.2023.169688.1037

Abstract

Theory of supersymmetry states that in the standard model, each particle has a partner with a spin that differs by half of a unit. So fermions partners are bosons and vice versa. Supersymmetry has been introduced to many one-dimensional quantum systems, radial Schrödinger equation and for the known model Jaynes-Cummings model. Since bosonic and fermionic are so related to the photon of two level-system. Of course using supersymmetry theory will be beneficial. Here, supersymmetry arguments are used to derive the wave function of Jaynes-Cummings model describes a two-level system (atom) interacts with a cavity field of single mode over a multi-photon transition where a Kerr-like medium and Stark term are considered. The supersymmetric operators related to the atomic system are introduced to diagonalize the Hamiltonian with a canonical transformation technique. Also, the eigenvalues spectrum and eigenvectors are exactly given. Then, alot of physics phenomena can be investigated and supersymmetry arguments can be applied on different optical systems.

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