Abstract
We discuss a novel type of surface soliton—aberrated surface soliton—appearance in a nonlinear one dimensional photonic crystal and a possibility of this surface soliton formation in two dimensional photonic crystal. An aberrated surface soliton possesses a nonlinear distribution of the wavefront. We show that, in one dimensional photonic crystal, the surface soliton is formed at the photonic crystal boundary with the ambient medium. Essentially, that it occupies several layers at the photonic crystal boundary and penetrates into the ambient medium at a distance also equal to several layers, so that one can infer about light energy localization at the lateral surface of the photonic crystal. In the one dimensional case, the surface soliton is formed from an earlier formed soliton that falls along the photonic crystal layers at an angle which differs slightly from the normal to the photonic crystal face. In the two dimensional case, the soliton can appear if an incident Gaussian beam falls on the photonic crystal face. The influence of laser radiation parameters, optical properties of photonic crystal layers and ambient medium on the one dimensional surface soliton formation is investigated. We also discuss the influence of two dimensional photonic crystal configuration on light energy localization near the photonic crystal surface. It is important that aberrated surface solitons can be created at relatively low laser pulse intensity and for close values of alternating layers dielectric permittivity which allows their experimental observation.
Highlights
On the base of computer simulation, we demonstrate a possibility of a novel type surface soliton—aberrated surface soliton—appearance in one dimensional photonic crystal
We describe the process of the considered surface solitons formation from the earlier formed soliton that falls on the photonic crystal at the angle different from the normal to the photonic crystal face
We have investigated the influence of photonic crystal (PC) and laser radiation properties on the formation of the novel type surface soliton in 1-D PC and the possibility of this type soliton formation in 2-D PC
Summary
Among the various problems of laser pulse interaction with a photonic crystal (PC), the soliton formation and light localization are very interesting problems [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19] partially due to the possibility of their wide use in information technologies. The possibility of formation of two color surface solitons in the corners or at the edges of a square photonic lattice is discussed in [56] In all these papers, the soliton occupies a single boundary layer or several solitons occupy several layers which are close to the photonic crystal faces. It should be stressed that if several solitons occupy several layers, a number of zero intensity points can be clearly seen in their intensity distribution The penetration of such solitons into the ambient medium is small, and the solitons do not change their location during their propagation along the photonic lattice or photonic structure. We consider three different relations between the photonic crystal face size and the incident beam radius, and show that the light localization takes place in the photonic crystal in all these cases
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