Theory of nonlocal soliton interaction in nematic liquid crystals
Date
2005-12-20
Authors
Rasmussen, Per Dalgaard
Bang, Ole
Krolikowski, Wieslaw
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American Physical Society
Abstract
We investigate interactions between spatial nonlocal bright solitons in nematic liquid crystals using an analytical (“effective particle”) approach as well as direct numerical simulations. The model predicts attraction of out-of-phase solitons and the existence of their stable bound state. This nontrivial property is solely due to the nonlocal nature of the nonlinear response of the liquid crystals. We further predict and verify numerically the critical outwards angle and degree of nonlocality which determine the transition between attraction and repulsion of out-of-phase solitons.
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Keywords
Keywords: Computer simulation; Flow interactions; Mathematical models; Nematic liquid crystals; Phase transitions; Out-of-phase solitons; Soliton interaction; Transition; Solitons
Citation
Physical Review, E, Statistical, Nonlinear and Soft Matter Physics 72.6 (2005): 066611/1-7
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Physical Review E-Statistical, Nonlinear and Soft Matter Physics
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Journal article
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