Abstract
Wave propagation is a fundamental phenomenon occurring in several physical systems. The spectra have been used by others to develop optical frequency standards. The process can potentially be used for frequency conversion in fiber optic network. In this system the dispersive properties can be controlled by the optical lattice making it possible to achieve phase-matched four wave mixing, like look the process taking place in the photonic crystal fibers (PCFs). In this paper will focus on two such systems the propagation nonlinear wave in photonic crystal fibers and the propagation of matter waves in optical lattices.
Highlights
Cross-section images of photonic-crystal fibres: (a–c) fibres with a high optical nonlinearity provided by a small fibre core and a high refractive-index contrast between the core and the cladding, (d) dual-cladding PCF
Inverse Raman scattering are corollary processes arising in Raman scattering
Summary
Cross-section images of photonic-crystal fibres: (a–c) fibres with a high optical nonlinearity provided by a small fibre core and a high refractive-index contrast between the core and the cladding, (d) dual-cladding PCF
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