Total non-refraction angle at Kerr defocusing interfaces

Sánchez-Curto, J, Chamorro-Posada, P and Mcdonald, GS ORCID: 2011, Total non-refraction angle at Kerr defocusing interfaces , in: QUONLOP 2011, Meeting of the Quantum Optics and Nonlinear Optics Committee of SEDOPTICA, 10-11 February 2011, University of Valladolid, Spain.

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Spatial soliton refraction at interfaces separating two nonlinear media has traditionally been studied in terms of the paraxial Nonlinear Schrödinger (NLS) Equation, thus restricting the validity of results to vanishingly small angles of incidence. This limitation is overcome within a Helmholtz nonparaxial framework, where a Nonlinear Helmholtz (NLH) equation addresses the full evolution of a broad beam (when compared to the wavelength) propagating at arbitrary angles in relation to the longitudinal axis. This inherent nonparaxial character of solitons evolving at planar interfaces is captured in an united, and generalized, Snell's law that addresses the evolution of both bright and dark solitons impinging either focusing or defocusing Kerr interfaces, respectively. As regards gray solitons, the Snell's law also predicts the existence of a total non-refraction angle which establishes that total non-refraction (if possible) can only be achieved for a unique angle of incidence. Unlike bright and black solitons, gray solitons can undergo internal refraction, external refraction or total transparency at the same nonlinear interface depending solely on the angle of incidence. This novel property has been proposed to lie in the core of either positive or negative lensing operations to be performed on dark soliton arrays.

Item Type: Conference or Workshop Item (Paper)
Themes: Energy
Media, Digital Technology and the Creative Economy
Subjects outside of the University Themes
Schools: Schools > School of Computing, Science and Engineering > Salford Innovation Research Centre
Journal or Publication Title: Procedings of QUONLOP 2011
Publisher: Spanish Optical Society
Refereed: Yes
Depositing User: GS McDonald
Date Deposited: 12 Oct 2011 11:41
Last Modified: 15 Feb 2022 18:02

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