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General imaging of advanced 3D mask objects based on the fully-vectorial Extended Nijboer-Zernike (ENZ) theory

机译：基于全矢量扩展Nijboer-Zernike（ENZ）理论的高级3D蒙版对象的一般成像

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In this paper we introduce a new mask imaging algorithm that is based on the source point integration method (or Abbe method). The method presented here distinguishes itself from existing methods by exploiting the through-focus imaging feature of the Extended Nijboer-Zernike (ENZ) theory of diffraction. An introduction to ENZ-theory and its application in general imaging is provided after which we describe the mask imaging scheme that can be derived from it. The remainder of the paper is devoted to illustrating the advantages of the new method over existing methods (Hopkins-based). To this extent several simulation results are included that illustrate advantages arising from: the accurate incorporation of isolated structures, the rigorous treatment of the object (mask topography) and the fully vectorial through-focus image formation of the ENZ-based algorithm.

机译：在本文中，我们介绍了一种基于源点积分方法（或ABBE方法）的新的掩模成像算法。这里呈现的方法通过利用扩展Nijboer-Zernike（ENZ）衍射理论的通焦成像特征来区分现有方法。提供了恩兹理论的简介及其在通用成像中的应用之后，我们描述了可以从中衍生的掩模成像方案。本文的其余部分旨在说明新方法对现有方法（基于霍普金斯）的优点。在这方面，包括若干模拟结果，说明了以下优点：分离结构的准确掺入，对象（掩模地形）的严格处理和基于ENZ的算法的全矢量通焦图像形成。

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《Optical Microlithography XXI 》|2008年|P.iviii|共2页
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作者
Sven van Haver; Olaf T.A. Janssen; Joseph J.M. Braat; Augustus J.E.M. Janssen; H. Paul Urbach; Silvania F. Pereira;
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正文语种
中图分类光刻、掩膜 ; 石版印刷 ;
关键词
mask imaging; extended nijboer-zernike (ENZ); mask topography effects; abbe method; vectorial; non-periodic objects; FDTD;

机译：遮罩成像;扩展Nijboer-zernike（ENZ）;遮罩地形影响;阿贝法;矢量;非周期性物体; FDTD;

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专利

1. Vectorial aerial-image computations of three-dimensional objects based on the extended Nijboer-Zernike theory [J] . S. van Haver, J. J. M. Braat, A. J. E. M. Janssen, Journal of the Optical Society of America, A. Optics, image science, and vision . 2009 ,第5期

机译：基于扩展Nijboer-Zernike理论的三维物体的矢量航空影像计算
2. Advanced analytic treatment and efficient computation of the diffraction integrals in the extended Nijboer-Zernike theory [J] . S. van Haver, A. J. E. M. Janssen JEOS:RP . 2013 ,第23期

机译：扩展Nijboer-Zernike理论中的衍射积分的高级解析处理和高效计算
3. Image formation in a multilayer using the Extended Nijboer-Zernike theory [J] . J. J. M. Braat, S. van Haver, A. J. E. M. Janssen, JEOS:RP . 2009 ,第5期

机译：使用延伸的Nijboer-Zernike理论在多层图像中形成
4. General imaging of advanced 3D mask objects based on the fully-vectorial Extended Nijboer-Zernike (ENZ) theory [C] . Sven van Haver, Olaf T.A. Janssen, Joseph J.M. Braat, Conference on Optical Microlithography . 2008

机译：基于全矢量图延伸Nijboer-Zernike（ENZ）理论的高级3D掩模对象的一般成像
5. To the Breadth, and to the Depth: Scalable 3D Imaging of Extended Objects with High Resolution Using X-ray Microscopy [D] . Du, Ming. 2019

机译：广度与深度：使用X射线显微镜对高分辨率的扩展对象进行可扩展3D成像
6. 3D printed mask extenders as a supplement to isolation masks to relieve posterior auricular discomfort: an innovative 3D printing response to the COVID-19 pandemic [O] . Zachary O’Connor, Daniel Huellewig, Peeti Sithiyopasakul, 2020

机译：3D印刷面膜扩展剂作为分离面膜的补充剂以缓解后耳耳廓不适：对Covid-19大流行的创新3D印刷反应
7. General imaging of advanced 3D mask objects based on the fully-vectorial extended Nijboer-Zernike (ENZ) theory [O] . Sven van Haver, Olaf T. A. Janssen, Joseph J. M. Braat, 2008

机译：基于全矢量扩展Nijboer-Zernike（ENZ）理论的高级3D蒙版对象的一般成像
8. Recognizing 3D (Three Dimensional) Objects from 2D (Two Dimensional) Images Using Structural Knowledge Base of Genetic Views [R] . Hanson, A. R. 1988

机译：利用遗传视图结构知识库从二维（二维）图像识别三维（三维）物体

General imaging of advanced 3D mask objects based on the fully-vectorial Extended Nijboer-Zernike (ENZ) theory

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