Accelerated Computation of the Physical Optics Approximation for Near-Field Single- and Double-Bounces Backscattering

Bourlier Christophe; Kubicke Gildas; Pouliguen Philippe

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Accelerated Computation of the Physical Optics Approximation for Near-Field Single- and Double-Bounces Backscattering

机译：近场单反射和双反射反向散射的物理光学近似的加速计算

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摘要

This article deals with the acceleration of the physical optics (PO) approximation for the backscattering computation in the near and far fields, for both single-bounce (SB) and double-bounce (DB) PO contributions. It is based on physical arguments, which allow us to apply either a closed-form expression (rapid calculation) or a numerical double integration to evaluate the scattered field from subsurfaces of a given mesh. The use of the closed-form expression is governed by two criteria, which must be extended to the bistatic case and also to the DB: the conventional Fraunhofer (related to the far-field zone) criterion and the chord error (related to the surface curvature) criterion. The proposed method is tested on a dihedral geometry.

机译：本文讨论了单反射（SB）和双反射（DB）PO贡献在近场和远场中用于反向散射计算的物理光学（PO）逼近的加速。它基于物理参数，这使我们可以应用闭式表达式（快速计算）或数值双积分来评估给定网格次表面的散射场。闭式表达式的使用受两个条件约束，这两个条件必须扩展到双基地情况和DB：常规Fraunhofer（与远场区域有关）准则和和弦误差（与表面有关）曲率）准则。所提出的方法在二面体几何上进行了测试。

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来源
《IEEE Transactions on Antennas and Propagation 》 |2019年第12期| 7518-7527| 共10页
作者
Bourlier Christophe; Kubicke Gildas; Pouliguen Philippe;
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作者单位

Univ Nantes CNRS IETR UMR 6164 F-44000 Nantes France;

DGA DT MI F-35998 Rennes France;

DGA AID F-75509 Paris France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Geometry; Physical optics; Optical surface waves; Scattering; Surface waves; Antennas; Surface impedance; Fast algorithm; high-frequency methods; physical optics (PO); radar cross section (RCS);

机译：几何;物理光学;光学表面波;散射;表面波;天线表面阻抗快速算法;高频方法;物理光学（PO）;雷达横截面（RCS）;

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1. Multilevel Physical Optics Algorithm for Near-Field Double-Bounce Scattering [J] . Roudstein Moty, Brick Yaniv, Boag Amir Antennas and Propagation, IEEE Transactions on . 2015 ,第11期

机译：用于近场双反弹散射的多级物理光学算法
2. Singularity-Free Contour-Integral Representations for Physical-Optics Near-Field Backscattering Problem [J] . Tian Tian Fan, Xiao Zhou, Tie Jun Cui Antennas and Propagation, IEEE Transactions on . 2017 ,第2期

机译：物理光学近场反向散射问题的无奇异轮廓积分表示
3. Light Backscattering by Ice Crystals of Cirrus Clouds Within the Physical Optics Approximation [J] . Alexander Konoshonkin, Anatoli Borovoi, Natalia Kustova, EPJ Web of Conferences . 2020 ,第4期

机译：在物理光学近似内通过卷云云冰晶光散射
4. Calculation of backscattering matrix for ice particles of cirrus clouds for 1.55 and 2 micron lidars within the physical optics approximation [C] . Dmitriy N. Timofeev, Alexander V. Konoshonkin, Natalia V. Kustova, Conference on remote sensing of clouds and the atmosphere . 2020

机译：在物理光学近似内为1.55和2微米引线的卷云冰颗粒反向散射矩阵
5. Accelerating the Computation of Density Functional Theory's Correlation Energy under Random Phase Approximations [D] . Thicke, Kyle. 2019

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6. Performance Analysis of Scattering-Level Multiplexing (SLMux) in Distributed Fiber-Optic Backscatter Reflectometry Physical Sensors [O] . Daniele Tosi, Carlo Molardi, Wilfried Blanc, 2020

机译：分布式光纤反向散射反射物理传感器分布级复用（SLMUX）的性能分析
7. Light Backscattering by Ice Crystals of Cirrus Clouds Within the Physical Optics Approximation [O] . Alexander Konoshonkin, Anatoli Borovoi, Natalia Kustova, 2020

机译：在物理光学近似内通过卷云云冰晶光散射
8. Linear-phase approximation in the triangular facet near-field physical optics computer program [R] . Imbriale, W. A., Hodges, R. E. 1990

机译：三角面近场物理光学计算机程序中的线性相位近似

Accelerated Computation of the Physical Optics Approximation for Near-Field Single- and Double-Bounces Backscattering

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