Related papers: Unconventional supersymmetric quantum mechanics in spin systems

Unconventional supersymmetric quantum mechanics in spin systems

URL: http://arxiv.org/abs/2012.00197v2
Date: Sun, 7 Feb 2021 01:43:04 GMT
Title: Unconventional supersymmetric quantum mechanics in spin systems
Authors: Amin Naseri, Yutao Hu and Wenchen Luo
Abstract summary: We show that the eigenproblem of any $2times 2$ matrix Hamiltonian with discrete eigenvalues is involved with a supersymmetric quantum mechanics. We also discuss the generalization of the formalism to a system of a single spin-$fracp2$ coupled with external fields.
Score: 2.1178416840822027
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: It is shown that the eigenproblem of any $2\times 2$ matrix Hamiltonian with discrete eigenvalues is involved with a supersymmetric quantum mechanics. The energy dependence of the superalgebra marks the disparity between the deduced supersymmetry and the standard supersymmetric quantum mechanics. The components of an eigenspinor are superpartners\textemdash up to a $SU(2)$ transformation\textemdash which allows to derive two reduced eigenproblems diagonalizing the Hamiltonian in the spin subspace. As a result, each component carries all information encoded in the eigenspinor. We also discuss the generalization of the formalism to a system of a single spin-$\frac{p}{2}$ coupled with external fields. The unconventional supersymmetry can be regarded as an extension of the Fulton-Gouterman transformation, which can be established for a two-level system coupled with multi oscillators displaying a mirror symmetry. The transformation is exploited recently to solve Rabi-type models. Correspondingly, we illustrate how the supersymmetric formalism can solve spin-boson models with no need to appeal a symmetry of the model. Furthermore, a pattern of entanglement between the components of an eigenstate of a many-spin system can be unveiled by exploiting the supersymmetric quantum mechanics associated with single spins which also recasts the eigenstate as a matrix product state. Examples of many-spin models are presented and solved by utilizing the formalism.

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