实现(概率)
制作
要素(刑法)
过程(计算)
计算机科学
衍射
光学
基质(水族馆)
组分(热力学)
质量(理念)
相(物质)
机械工程
工程制图
工程类
物理
数学
地质学
政治学
病理
操作系统
法学
海洋学
统计
替代医学
热力学
医学
量子力学
作者
Donald C. O’Shea,Thomas J. Suleski,Alan D. Kathman,Dennis W. Prather
出处
期刊:SPIE eBooks
[SPIE]
日期:2009-09-04
卷期号:: 115-132
被引量:1
摘要
In previous chapters we considered the fundamental theories of diffraction and a number of design approaches for diffractive optical elements. However, before a diffractive optical element can be built, a number of additional questions must be addressed. For example: - How is the design in a computer "€œtransformed" into a physical component? - What material should the DOE be made from? - How does the choice of material affect the fabrication process? - Are there physical limitations on what can be made? - How does the quality of the substrate affect the performance of the components? - Are special pieces of equipment or special environments required for the fabrication process? - How do you know what you have made? These topics will be explored in detail in the next several chapters. In general, we will explore the manufacture and test of spatially varying phase profiles in or on an optical substrate. Although this phase profile can be achieved through a number of means, the most common realization of these profiles will be considered: Diffractive optical elements created as spatially varying surface relief profiles in or on an optical substrate.
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