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Numerical analysis of photonic crystal fiber with chalcogenide core tellurite cladding composite microstructure 被引量:1
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作者 刘硕 李曙光 《Chinese Physics B》 SCIE EI CAS CSCD 2013年第7期218-222,共5页
Kinds of photonic crystal fibers with chalcogenide core tellurite cladding composite microstructure are proposed. The multi-core photonic crystal fiber can reach the higher nonlinearity coefficient and the larger effe... Kinds of photonic crystal fibers with chalcogenide core tellurite cladding composite microstructure are proposed. The multi-core photonic crystal fiber can reach the higher nonlinearity coefficient and the larger effective mode area. The small single-core photonic crystal fiber has a very high nonlinearity coefficient. At the wavelength λ=0.8μm, the nonlinearity coefficient can reach 31.37053 W-1·m-1, at the wavelength λ=1.55μm, the nonlinearity coefficient is 11.19686W-1·m-1. 展开更多
关键词 multi-core photonic crystal fiber effective mode area nonlinearity coefficient dispersion
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Hybrid plasmon waveguides with metamaterial substrate and dielectric substrate:A contrastive study
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作者 宫慧 刘玉敏 +2 位作者 俞重远 吴秀 尹昊智 《Chinese Physics B》 SCIE EI CAS CSCD 2014年第4期427-432,共6页
Hybrid plasmon waveguides, respectively, with metamaterial substrate and dielectric substrate are investigated and analyzed contrastively with a numerical finite element method. Basic properties, including propagation... Hybrid plasmon waveguides, respectively, with metamaterial substrate and dielectric substrate are investigated and analyzed contrastively with a numerical finite element method. Basic properties, including propagation length Lp, effective mode area Aeff, and energy distribution, are obtained and compared with waveguide geometric parameters at 1.55 gin. For the waveguide with metamaterial substrate, propagation length Lp increases to several tens of microns and effective mode area Aeff is reduced by more than 3 times. Moreover, the near field region is expanded, leading to potential applications in nanophotonics. Therefore, it could be very helpful for improving the integration density in optical chips and developing functional components on a nanometer scale for all optical integrated circuits. 展开更多
关键词 hybrid plasmon waveguide METAMATERIAL propagation length effective mode area
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