Properties of Shape-Invariant Tridiagonal Hamiltonians

Properties of Shape-Invariant Tridiagonal Hamiltonians

As is known, a nonnegative-definite Hamiltonian H that has a tridiagonal matrix representation in a basis set allows defining forward (and backward) shift operators that can be used to determine the matrix representation of the supersymmetric partner Hamiltonian H (+) in the same basis. We show that...

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Bibliographic Details
Published in:Theoretical and mathematical physics Vol. 203; no. 3; pp. 761 - 779
Main Authors: Yamani, H. A., Mouayn, Z.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-06-2020
Springer Nature B.V
Subjects:
Applications of Mathematics
Energy spectra
Invariants
Mathematical analysis
Mathematical and Computational Physics
Matrix methods
Matrix representation
Physics
Physics and Astronomy
Supersymmetry
Theoretical
supersymmetry
tridiagonal Hamiltonian
lowering operator
raising operator
shape-invariant potential
coherent state
superpotential
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Summary:As is known, a nonnegative-definite Hamiltonian H that has a tridiagonal matrix representation in a basis set allows defining forward (and backward) shift operators that can be used to determine the matrix representation of the supersymmetric partner Hamiltonian H (+) in the same basis. We show that if the Hamiltonian is also shape-invariant, then the matrix elements of the Hamiltonian are related such that the energy spectrum is known in terms of these elements. It is also possible to determine the matrix elements of the hierarchy of supersymmetric partner Hamiltonians. Moreover, we derive the coherent states associated with this type of Hamiltonian and illustrate our results with examples from well-studied shape-invariant Hamiltonians that also have a tridiagonal matrix representation.
ISSN:0040-5779
1573-9333
DOI:10.1134/S0040577920060057