Black Holes and Solitons of the Quantized Dispersionless Nls and Dnls Equations
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Pashaev, Oktay
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BRONZE
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Yes
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Abstract
The classical dynamics of non-relativistic particles are described by the Schrödinger wave equation, perturbed by quantum potential nonlinearity. Quantization of this dispersionless equation, implemented by deformation of the potential strength, recovers the standard Schrödinger equation. In addition, the classically forbidden region corresponds to the Planck constant analytically continued to pure imaginary, values. We apply the same procedure to the NLS and DNLS equations, constructing first the corresponding dispersionless limits and then adding quantum deformations. All these deformations admit the Lax representation as well as the Hirota bilinear form. In the classically forbidden region we find soliton resonances and black hole phenomena. For deformed DNLS the chiral solitons with single event horizon and resonance dynamics are constructed.
Description
Keywords
Schrödinger equation, Dynamics, Quantum potential, Hirota bilinear form, dispersionless limits, Black holes, chiral solitons, NLS equations (nonlinear Schrödinger equations), Lax representation, Hirota bilinear form, Schrödinger equation, Quantum potential, Soliton theory, asymptotic behavior of solutions of infinite-dimensional Hamiltonian systems, Dynamics, soliton resonances
Fields of Science
0103 physical sciences, 01 natural sciences
Citation
Pashaev, O., and Lee, J. H. (2002). Black holes and solitons of the quantized dispersionless NLS and DNLS equations. ANZIAM Journal, 44(1), 73-81. doi:10.1017/S1446181100007926
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OpenCitations Citation Count
16
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Volume
44
Issue
1
Start Page
73
End Page
81
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CrossRef : 13
Scopus : 13
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