材料非线性光学表征技术综述

IF 19 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Reports on Progress in Physics Pub Date : 2016-02-10 DOI:10.1088/0034-4885/79/3/036401
C. B. de Araújo, A. Gomes, G. Boudebs
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引用次数: 107

摘要

提出并评价了各种表征中心对称材料非线性光学响应的技术,重点讨论了光子材料的宏观可测量量与微观性质之间的关系。材料的近声光折射和近声光吸收是主要研究的现象。研究了NL折射系数和NL吸收系数与材料性质以及激光激发特性(波长、强度、空间分布、脉冲持续时间和脉冲重复率)的关系。对选定的实验结果进行了讨论和说明。对现有的各种技术进行了比较,并对其优缺点进行了评价。现有技术之间的关键比较提供了评估其准确性和敏感性的要素,相对于传统技术而言,新方法提出了改进。
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Techniques for nonlinear optical characterization of materials: a review
Various techniques to characterize the nonlinear (NL) optical response of centro-symmetric materials are presented and evaluated with emphasis on the relationship between the macroscopic measurable quantities and the microscopic properties of photonic materials. NL refraction and NL absorption of the materials are the phenomena of major interest. The dependence of the NL refraction and NL absorption coefficients on the nature of the materials was studied as well as on the laser excitation characteristics of wavelength, intensity, spatial profile, pulse duration and pulses repetition rate. Selected experimental results are discussed and illustrated. The various techniques currently available were compared and their relative advantages and drawbacks were evaluated. Critical comparisons among established techniques provided elements to evaluate their accuracies and sensitivities with respect to novel methods that present improvements with respect to the conventional techniques.
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来源期刊
Reports on Progress in Physics
Reports on Progress in Physics 物理-物理:综合
CiteScore
31.90
自引率
0.00%
发文量
45
审稿时长
6-12 weeks
期刊介绍: Reports on Progress in Physics is a highly selective journal with a mission to publish ground-breaking new research and authoritative invited reviews of the highest quality and significance across all areas of physics and related areas. Articles must be essential reading for specialists, and likely to be of broader multidisciplinary interest with the expectation for long-term scientific impact and influence on the current state and/or future direction of a field.
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