表面等离子体共振作用下高斯束和拉盖尔-高斯束的横向位移增强

2015 International Conference on Microwave, Optical and Communication Engineering (ICMOCE) Pub Date : 2015-12-01 DOI:10.1109/ICMOCE.2015.7489722

P. K. Swain, N. Goswami, A. Saha

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引用次数: 0

摘要

本文首次在自由空间波长为1550 nm的四层Kretschmann-Raether几何结构中观察、设计并模拟了增强高斯光束和拉盖尔-高斯光束的空间和角Goos-Hanchen (GH)位移和Imbert-Fedorov (IF)位移的理论方法。本文提出的结构包括一个ZnSe棱镜和介于两个银层之间的E44液晶层，通过该结构可以观测高斯光束和拉盖尔-高斯光束的空间和角度GH位移和中频位移，而精确的输出光束位置只能通过空间和角度GH位移和中频位移的复合效应来准确识别。本文计算了两种光束在入射角为400 ~ 500时的空间和角度GH位移和中频位移。这个想法加速了μm范围内光学调谐的概念，并揭示了不同光束的每个实验的精确输出光束位置。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Enhanced lateral shifts with Gaussian beam and Laguerre-Gaussian beam in presence of surface plasmon resonance

First time a theoretical approach towards the enhancement of spatial and angular Goos-Hanchen (GH) shift and Imbert-Fedorov (IF) shift for a Gaussian beam and Laguerre-Gaussian beam are observed, designed and simulated in four layer Kretschmann-Raether geometry at a free space wavelength of 1550 nm. Here the proposed configuration comprises a ZnSe prism and a liquid crystal layer of E44 between two silver layers through which spatial and angular GH shift and IF shift can be observed for Gaussian beam as well as Laguerre-Gaussian beam whereas the exact output beam position can only be accurately identified with the composite effect of spatial and angular GH shift and IF shift. Here with the variation of incident angle from 400 to 500, the spatial and angular GH shift and IF shift have been calculated for two types of beams. This idea expedites the concept of optical tuning at μm ranges and reveals the exact output beam position for every experiments with different beams.

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2015 International Conference on Microwave, Optical and Communication Engineering (ICMOCE)

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