EA McCoy
Arbitrary-angle scattering of spatial solitons from dielectric optical interfaces
McCoy, EA; Christian, JM; McDonald, GS
Authors
Dr James Christian J.Christian@salford.ac.uk
Lecturer
Dr Graham McDonald G.S.McDonald@salford.ac.uk
Reader
Abstract
Wave–interface phenomena appear throughout Nature and are intrinsically angular in character. For instance, the behaviour of light waves at material boundaries underpins the entire field of optics. The seminal works on nonlinear
beam refraction [1] considered scalar bright spatial solitons impinging on the interface between two Kerr-type media with different dielectric parameters, but where angles of incidence, reflection and refraction (relative to the interface) were constrained to be near-negligibly small. Our Group has recently been developing new mathematical and computational tools to describe arbitrary-angle refraction of similar beams [2]. We will report our latest research involving higher-order material effects (e.g., quintic-type nonlinearity). A generalized Snell’s law describing beam refraction will be detailed and tested directly against fully-numerical calculations. New effects are also uncovered, through simulations, in both small- and large-angle regimes.
Citation
McCoy, E., Christian, J., & McDonald, G. (2011, June). Arbitrary-angle scattering of spatial solitons from dielectric optical interfaces. Poster presented at College Research Showcase Day, University of Salford, Greater Manchester, UK
| Presentation Conference Type | Poster |
|---|---|
| Conference Name | College Research Showcase Day |
| Conference Location | University of Salford, Greater Manchester, UK |
| Start Date | Jun 16, 2011 |
| Deposit Date | Oct 17, 2011 |
| Publicly Available Date | Apr 5, 2016 |
| Additional Information | Event Type : Conference References : [1] A. B. Aceves, J. V. Moloney, and A. C. Newell, Phys. Rev. A 39, 1809–1827 (1989); Phys. Rev. A 39 1828–1840(1989). [2] J. Sánchez-Curto, P. Chamorro-Posada, and G. S. McDonald, J. Opt. A: Pure Appl. Opt. 11 art. no. 054015 (2009); Opt. Lett. 32, 1126–1128 (2007). |
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