Enigmas of optical and matter-wave soliton nonlinear tunneling |
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Authors: | TL Belyaeva C Hernandez-Tenorio F Garcia-Santibañez |
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Affiliation: | 1. Universidad Autónoma del Estado de México , C.P. 50000, Toluca, México;2. Instituto de Ciencias, Benemerita Universidad Autonoma de Puebla , A.P. 502, 72001 Puebla, Mexico |
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Abstract: | The method of mathematical analogies opens the possibility to study optical and matter-wave solitons in parallel and, due to the evident complexity of experiments with matter wave solitons, offers remarkable possibilities in studies of the BEC systems by performing experiments in the nonlinear optical systems and vice versa. We discuss previous misinterpretations of the binding soliton energy and investigate all possible scenarios of nonlinear soliton tunneling of Schrödinger solitons including soliton splitting on a potential barrier, leading to partial reflection and partial transmission, sub-barrier soliton tunneling and over-barrier soliton reflection. We reveal the most significant modifications of soliton tunneling scenarios due to increasing the binding energy, and show that the self-compressing soliton resembles more the classical particle case than a quantum mechanical behavior. The enhancement of the soliton binding energy is of decisive importance in the testing of a long-standing theoretical result which predicts that an optical soliton can tunnel between two regions of anomalous dispersion across a forbidden region of normal dispersion (enhanced soliton spectral tunneling effect). |
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Keywords: | optical solitons nonlinear Schrödinger equation matter-wave solitons Gross–Pitaevskii equation soliton tunneling effect self-compressing solitons colored solitons soliton spectral tunneling effect |
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