Surface wave-induced enhancement of the Goos-H?nchen shift in single negative one-dimensional photonic crystal

Namdar A.; Talebzadeh R.; Jamshidi-Ghaleh K.

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Surface wave-induced enhancement of the Goos-H?nchen shift in single negative one-dimensional photonic crystal

机译：表面波诱导的单个负一维光子晶体中Goos-H？nchen位移的增强

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The Goos-H?nchen (GH) shift in one-dimensional photonic crystal (1DPC), composed of alternate ε-negative and μ-negative materials, is theoretically investigated. It is demonstrated that larger shifts can be obtained when surface modes are excited. It is also found that the magnitude of the lateral GH shift is closely related to intrinsic loss factor. The results show that for a definite value of loss and for values larger than that, backward surface waves which lead to negative lateral GH shifts can be excited. On the other hand, there are large positive GH shifts for small loss factor less than aforementioned definite loss. The GH shift is very sensitive to the thickness of air gap which is necessary to excitation of the surface waves.

机译：理论上研究了由交替的ε负材料和μ负材料组成的一维光子晶体（1DPC）中的Goos-H？nchen（GH）位移。结果表明，当激发表面模态时可以获得更大的位移。还发现横向GH偏移的大小与固有损耗因子密切相关。结果表明，对于确定的损耗值和更大的损耗值，可以激发导致负GH横向偏移的反向表面波。另一方面，对于小的损耗因子，存在比上述确定损耗小的较大的正GH偏移。 GH偏移对激发表面波所需的气隙厚度非常敏感。

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《Optics & Laser Technology》 |2013年第null期|共5页
作者
Namdar A.; Talebzadeh R.; Jamshidi-Ghaleh K.;
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正文语种 eng
中图分类光学;
关键词
Goos-H?nchen shift; Single negative and one-dimensional photonic crystal; Surface wave;

机译：Goos-H？nchen位移;单负一维光子晶体;表面波;

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1. Surface wave-induced enhancement of the Goos-H?nchen shift in single negative one-dimensional photonic crystal [J] . Namdar A., Talebzadeh R., Jamshidi-Ghaleh K. Optics & Laser Technology . 2013,第Null期

机译：表面波诱导的单个负一维光子晶体中Goos-H？nchen位移的增强
2. Enhanced Goos-H?nchen shift of graphene coated on one-dimensional photonic crystal [J] . Weijing Kong, Yu Sun, Yu Lu Results in Physics . 2020,第60期

机译：增强的GoOS-H？涂覆在一维光子晶体上的石墨烯的旋转
3. Effect of anisotropy on the photonic band gap and surface polaritons of a one-dimensional single-negative photonic crystal [J] . S. Roshan Entezar, A. Madani, A. Namdar, Journal of magnetism and magnetic materials . 2012,第9期

机译：各向异性对一维单负光子晶体的光子带隙和表面极化子的影响
4. Direct measurement of negative optical Goos-Hänchen shift from photonic crystal [C] . Yu-Po Wong, Xuerong Xiao, Olav Solgaard Conference on Lasers and Electro-Optics . 2016

机译：直接测量光子晶体的负光学Goos-Hänchen偏移
5. Observations of the Goos-H?nchen and Imbert-Fedorov shifts via weak measurement [D] . Kazarina, Oxana. 2014

机译：观察GoOS-H？NCHEN和IMBERT-FEDOROV通过弱测量转换
6. Molecular Monolayer Sensing Using Surface Plasmon Resonance and Angular Goos-Hänchen Shift [O] . Cherrie May Olaya, Norihiko Hayazawa, Maria Vanessa Balois-Oguchi, 2021

机译：使用表面等离子体共振和角度GOOS-hänchen转变的分子单层感应
7. Influence of surface termination on inverse Goos-H"anchen shift of negatively refractive photonic crystals [O] . Hu, Jinbing, Liang, Binming, Chen, Jiabi, 2015

机译：表面终止对反向Goos-H \“anchen位移的影响负折射光子晶体

Surface wave-induced enhancement of the Goos-H?nchen shift in single negative one-dimensional photonic crystal

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