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Multi-Well Potentials in Quantum Mechanics and Stochastic Processes
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- Symmetry, Integrability and Geometry: Methods and Applications (SIGMA)
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- Symmetry, Integrability and Geometry: Methods and Applications, 2010, том 6
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Multi-Well Potentials in Quantum Mechanics and Stochastic Processes
Інший ID:
2010 Mathematics Subject Classification: 81Q60
DOI:10.3842/SIGMA.2010.098
DOI:10.3842/SIGMA.2010.098
Посилання:
Multi-Well Potentials in Quantum Mechanics and Stochastic Processes / V.P. Berezovoj, G.I. Ivashkevych, M.I. Konchatnij // Symmetry, Integrability and Geometry: Methods and Applications. — 2010. — Т. 6. — Бібліогр.: 43 назв. — англ.
Підтримка:
This paper is a contribution to the Proceedings of the Workshop “Supersymmetric Quantum Mechanics and Spectral Design” (July 18–30, 2010, Benasque, Spain). The full collection is available at http://www.emis.de/journals/SIGMA/SUSYQM2010.html.
Authors thank to M. Plyushchay for helpful discussions and BVP Conference Organizers for a stimulating environment. We are thankful to A. Nurmagambetov for reading the manuscript, suggestions and improvings.
Дата:
2010
Переглядів:
323
Завантажень:
202
Анотація:
Using the formalism of extended N=4 supersymmetric quantum mechanics we consider the procedure of the construction of multi-well potentials. We demonstrate the form-invariance of Hamiltonians entering the supermultiplet, using the presented relation for integrals, which contain fundamental solutions. The possibility of partial N=4 supersymmetry breaking is determined. We also obtain exact forms of multi-well potentials, both symmetric and asymmetric, using the Hamiltonian of harmonic oscillator as initial. The modification of the shape of potentials due to variation of parameters is also discussed, as well as application of the obtained results to the study of tunneling processes. We consider the case of exact, as well as partially broken N=4 supersymmetry. The distinctive feature of obtained probability densities and potentials is a parametric freedom, which allows to substantially modify their shape. We obtain the expressions for probability densities under the generalization of the Ornstein-Uhlenbeck process.
