比较严格的散射模型,以准确复制光学表面计量中的散射电磁波行为

IF 3.8 2区 物理与天体物理 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Helia Hooshmand , Tobias Pahl , Poul-Erik Hansen , Liwei Fu , Alexander Birk , Mirza Karamehmedović , Peter Lehmann , Stephan Reichelt , Richard Leach , Samanta Piano
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引用次数: 0

摘要

严格的散射模型以麦克斯韦方程为基础,能够为物体的电磁波散射建模提供高精度的解决方案。严格的模型能够计算来自任何几何表面的散射场,并考虑入射光偏振的影响,因此是解决复杂光-物质相互作用问题的最有前途的工具。利用各种严格的模型,包括局部场傅里叶模态法、边界元法和有限元法,获得了硅圆柱体在入射光的横向电偏振和横向磁偏振照射下的电近场散射的总强度。以入射光的两种偏振模式的米氏解法为参考,比较了这些严格模型获得的总电场近场强度。此外,还使用相同的严格模型分析了硅正弦曲线散射的总电近场强。对结果进行了详细讨论,并研究了圆柱体总电场强度与精确米氏解法的偏差。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of rigorous scattering models to accurately replicate the behaviour of scattered electromagnetic waves in optical surface metrology
Rigorous scattering models are based on Maxwell's equations and can provide high-accuracy solutions to model electromagnetic wave scattering from objects. Being able to calculate the scattered field from any surface geometry and considering the effect of the polarisation of the incident light, make rigorous models the most promising tools for complex light-matter interaction problems. The total intensity of the electric near-field scattering from a silicon cylinder illuminated by the transverse electric and transverse magnetic polarisation of the incident light is obtained using various rigorous models including, the local field Fourier modal method, boundary element method and finite element method. The intensity of the total electric near-field obtained by these rigorous models is compared using the Mie solution as a reference for both polarisation modes of the incident light. Additionally, the intensity of the total electric near-field scattered from a silicon sinusoid profile using the same rigorous models is analysed. The results are discussed in detail, and for the cylinder, the deviations in the intensity of the total electric field from the exact Mie solution are investigated.
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来源期刊
Journal of Computational Physics
Journal of Computational Physics 物理-计算机:跨学科应用
CiteScore
7.60
自引率
14.60%
发文量
763
审稿时长
5.8 months
期刊介绍: Journal of Computational Physics thoroughly treats the computational aspects of physical problems, presenting techniques for the numerical solution of mathematical equations arising in all areas of physics. The journal seeks to emphasize methods that cross disciplinary boundaries. The Journal of Computational Physics also publishes short notes of 4 pages or less (including figures, tables, and references but excluding title pages). Letters to the Editor commenting on articles already published in this Journal will also be considered. Neither notes nor letters should have an abstract.
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