Supersymmetric and Shape-Invariant Generalization for Non-resonant Jaynes-Cummings Systems

A. B. Balantekin (Max-Planck-Institute; A. N. F. Aleixo (Wisconsin U.; Heidelberg & Wisconsin U.; IBLCE); M. A. Candido Ribeiro (Sao Jose do Rio Preto; Madison); Madison & Rio de Janeiro Federal U.)

arxiv: quant-ph/0005045 · v1 · submitted 2000-05-12 · 🪐 quant-ph · nucl-th

Supersymmetric and Shape-Invariant Generalization for Non-resonant Jaynes-Cummings Systems

A. N. F. Aleixo (Wisconsin U. , Madison & Rio de Janeiro Federal U.) , A. B. Balantekin (Max-Planck-Institute , Heidelberg & Wisconsin U. , Madison) , M. A. Candido Ribeiro (Sao Jose do Rio Preto , IBLCE) This is my paper

classification 🪐 quant-ph nucl-th

keywords generalizationjaynes-cummingsmatrixnon-resonantshape-invariantarbitrarybound-stateclass

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A class of shape-invariant bound-state problems which represent transitions in a two-level system introduced earlier are generalized to include arbitrary energy splittings between the two levels. We show that the coupled-channel Hamiltonians obtained correspond to the generalization of the non-resonant Jaynes-Cummings Hamiltonian, widely used in quantized theories of laser. In this general context, we determine the eigenstates, eigenvalues, the time evolution matrix and the population inversion matrix factor.

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Supersymmetric and Shape-Invariant Generalization for Non-resonant Jaynes-Cummings Systems

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