Scalar-Based Design of Binary Subwavelength Diffractive Lenses

Diffractive Optics and Micro-Optics Pub Date : 1900-01-01 DOI:10.1364/domo.1998.dtub.3
J. Mait, D. Prather, M. Mirotznik
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Abstract

Recent research1–9 has shown that if a binary-phase diffractive optical element (DOE) has features that are on the order of the illuminating wavelength, the performance limits set by scalar-based diffraction theory can be overcome. In fact, diffraction efficiencies in excess of 90% have been predicted for binary gratings that have subwavelength features.1,4,5 Due primarily to the availability of tools for modeling, the analysis and design of subwavelength DOEs (SWDOEs) has concentrated primarily on gratings.1-7,10 To overcome this limitation, we have developed numerical routines that use a boundary element method (BEM) to analyze diffraction from finite extent, aperiodic DOEs.11 In this paper we consider diffractive design, in particular, the design of diffractive lenses, subject to the constraints of fabrication.
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基于标量的二元亚波长衍射透镜设计
最近的研究1 - 9表明,如果双相衍射光学元件(DOE)具有在照明波长数量级上的特征,则可以克服基于标量衍射理论设定的性能限制。事实上,对于具有亚波长特征的二元光栅,衍射效率已被预测超过90%。1,4,5主要由于建模工具的可用性,亚波长do (swdo)的分析和设计主要集中在光栅上。为了克服这一限制,我们开发了使用边界元法(BEM)的数值例程,从有限范围、非周期的角度分析衍射在本文中,我们考虑衍射设计,特别是衍射透镜的设计,受到制造的限制。
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Diffractive Optics and Micro-Optics
Diffractive Optics and Micro-Optics
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Study of the resonant behavior of waveguide-gratings Increasing the angular tolerance of guided-mode filters Perturbation theory - a unified approach to describe diffractive optical elements Electromagnetic Analysis of Axially-Symmetric DOEs Using the FDTD Method New Convex Grating Types Manufactured by Electron Beam Lithography High Efficiency Binary Blazed Grating Waveguide Couplers
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