Polarization selective diffractive optical elements and applications

Diffractive Optics and Micro-Optics Pub Date : 1900-01-01 DOI:10.1364/domo.1998.dmd.1a

Y. Fainman, F. Xu, R. Tyan, D. Marom, P. Shames, P. Sun, J. Ford, A. Scherer, A. Krishnamoorthy

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Abstract

Computer-generated holograms (CGH) fabricated as phase-only optical elements have proven to be useful for various photonic systems applications. Such elements are normally capable of implementing fixed functionality. However, the performances of packaged photonic systems will be further enhanced with availability of CGH elements with multifunctionality in polarization or color, and programmability. We have constructed polarization selective CGH which apply an independent phase profile during readout by horizontal and vertical light polarizations1–3. These elements are composed of two surface relief etched birefringent substrates joined face to face. We describe the design methodology for arbitrary birefringent substrate and gap materials. We show how these holograms are fabricated with standard microelectronics technology, and discuss the effects of etching and alignment errors on performance. We have demonstrated high diffraction efficiency with a polarization contrast ratio of over 100:1, using a multilevel phase hologram made from two birefringent lithium niobate substrates2.

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偏振选择衍射光学元件及其应用

作为纯相位光学元件的计算机生成全息图(CGH)已被证明可用于各种光子系统的应用。这些元素通常能够实现固定的功能。然而，封装光子系统的性能将随着CGH元件在偏振或颜色上的多功能性和可编程性的可用性而进一步提高。我们已经构建了偏振选择性CGH，它在水平和垂直光偏振读出时应用独立的相位剖面[1 - 3]。这些元件由两个表面浮雕蚀刻双折射衬底组成，它们面对面地连接在一起。我们描述了任意双折射衬底和间隙材料的设计方法。我们展示了这些全息图是如何用标准微电子技术制造的，并讨论了蚀刻和对准误差对性能的影响。我们已经证明了高衍射效率，偏振对比度超过100:1，使用由两个双折射铌酸锂衬底制成的多层相全息图2。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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$Diffractive Optics and Micro-Optics$

Diffractive Optics and Micro-Optics

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