光学
激光束质量
梁(结构)
Z扫描技术
样品(材料)
激光器
功率(物理)
光圈(计算机存储器)
职位(财务)
光功率
光束直径
质量(理念)
激光功率缩放
计算机科学
非线性光学
材料科学
物理
激光束
声学
量子力学
热力学
财务
经济
作者
Philip B. Chapple,J. Staromlynska,J.A. Hermann,T. J. McKay,R. McDuff
标识
DOI:10.1142/s0218863597000204
摘要
The Z-scan technique is a popular method for measuring degenerate (single frequency) optical nonlinearities using a single laser beam. In order to perform reliable measurements, it is necessary to carefully characterize and control a number of experimental parameters, such as the beam quality, the power and temporal characteristics of the laser, the collection aperture size and position, the sample reflectivity, sample thickness and imperfections in the sample. Failure to control these parameters leads to inaccurate determinations of the nonlinearities. In this paper, we review the theory of Z-scan and examine each of these issues from experimental and theoretical viewpoints. This work will be of interest to anyone who performs Z-scan experiments and to those interested in optical power limiting and nonlinear optical propagation.
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