液晶实时掩膜技术制作连续微光学元件

彭钦军; 郭永康; 陈波; 刘世杰; 曾阳素

光学学报, 2003, 23 (2): 220, 网络出版: 2006-06-27

液晶实时掩膜技术制作连续微光学元件

LCD Real-Time Mask Technique for Fabrication of Continuous Microoptical Elements

论文大纲

彭钦军 ^*郭永康陈波刘世杰曾阳素

作者单位

四川大学物理系信息光学研究中心,成都,610064

应用光学实时掩膜液晶显示器件连续微光学元件光刻 applied optics real-time mask liquid crystal display (LCD) continuous microoptical elements photolithography

摘要

提出制作连续微光学元件的一种新技术――液晶实时掩膜技术,阐述了其基本原理和制作方法。基于部分相干光成像理论,采用计算机模拟了用实时掩膜制作微透镜和微轴锥镜阵列的过程。同时建立了实验装置进行实验,用全色银盐干板(Kodak 131)通过酶刻蚀得到口径为118.7 μm,深为1.322 μm的56×48的轴锥镜的列阵。

Abstract

new technique for fabrication of continuous microoptical elements by using LCD (liquid crystal display) real-time mask is proposed, and its principle and design method are expatiated. Based on partial coherent imaging theory, the process to fabricate the micro-axicon and the microlens has been simulated. The experimental setup for LCD real-time mask technique was built by using the color LCD in authors′ laboratory. and the micro-axicon array has been fabricated. The 3|dimensional surface relief structure was shaped in the pan chromatic silver-halide sensitized gelatin (Kodak-131) with trypsinase etching. The caliber of axicon is 118.7 μm, and the etching depth is 1.322 μm

参考文献

[1] Gale M T, Rossi M, Pedersen J. Fabrication of continuous-relief micro-optical element by direct laser writing in photoresist. Opt. Engng., 1994, 33(11):3556～3566

[2] Kley E B, Schnabel B, Zeitner U E. E-beam lithography-an efficient tool for the fabrication of diffractive and microoptical element. Proc. SPIE, 1997, 3008:22～28

[3] Sixt O P, Stauffer J M, Mayer J M et al.. One-step 3D shaping using a grey-tone mask for optical and microelectronic applications. Microelectron. Engng., 1994, 23:449～454

[4] Suleski T J, O′Shea D C. Gray-scale masks for diffractive-optics fabrication: 1. Commercial slide imagers. Appl. Opt., 1995, 34(32):7507～7517

[5] Henke W, Hoppe W, Quenzer H J et al.. Simulation and process design of gray-tone for the fabrication of arbitrarily shaped surface. Jpn. J. Appl. Phys., 1994, 33-1(12B):6809～6815

[6] Lu K, Saleh B E A. Theory and design of the liquid crystal TV as an optical spatial light modulator. Opt. Engng., 1990, 29(3):240～245

[7] Hopkins H H. On the diffraction theory of optical images. Proc. Roy. Soc., 1953, A217:408～432

[8] Tian B M. Electronic Display(电子显示). Beijing: Publishing House of Tsinghua Univ., 2001. 27～103 (in Chinese)

[9] Fimia A, Pascual I, Belendez A. Optimized spatial frequency response in silver halide sensitized gelatin. Appl. Opt., 1992, 31(20):4625～4627

彭钦军, 郭永康, 陈波, 刘世杰, 曾阳素. 液晶实时掩膜技术制作连续微光学元件[J]. 光学学报, 2003, 23(2): 220. 彭钦军, 郭永康, 陈波, 刘世杰, 曾阳素. LCD Real-Time Mask Technique for Fabrication of Continuous Microoptical Elements[J]. Acta Optica Sinica, 2003, 23(2): 220.

液晶实时掩膜技术制作连续微光学元件

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