首页 > 论文 > 光子学报 > 43卷 > 5期(pp:509002--1)

可编程菲涅耳相位透镜应用于多平面全息投影

Multi-plane Holographic Projection Using Programmable Fresnel Phase Lenses

  • 摘要
  • 论文信息
  • 参考文献
  • 被引情况
  • PDF全文
分享:

摘要

研究了基于菲涅耳相位透镜实现多平面全息投影的方法,采用硅基液晶相位调制器建立了多平面全息投影系统.首先,利用可编程菲涅耳相位透镜代替傅里叶透镜,将计算机生成的相位全息图与菲涅耳透镜的相位结合;其次,基于时分复用和空分复用原理提出了加载菲涅耳相位透镜与相位全息图到相位空间光调制器上的两种方法;最后,讨论了在多平面全息投影中每个单一平面实现旋转物体动态360°视角显示的方法.实验结果表明:在距离硅基液晶分别为500、800、1 100和1 400 mm处的四个重构平面可以获得全息投影图像;通过动态地改变菲涅耳相位透镜的焦距,可以实现多平面全息投影.

Abstract

A method to achieve multi-plane holographic projection using programmable Fresnel phase lenses was investigated. A multi-plane holographic projection system was developed with liquid crystal on silicon phase modulator. First, the programmable Fresnel phase lenses were substituted for the Fourier lens, in addition, the phase of Fresnel phase lenses were added to the computer generated phase holograms. Then based on the principles of time division multiplexing and space division multiplexing, two different methods combined programmable Fresnel phase lenses and phase holograms displayed on a phase modulating spatial light modulator were presented. Finally, the method to acquire dynamic 360°viewing-angle images corresponding to the object rotation in each image plane of multi-plane holographic projection was discussed. Experimental results show that holographic projection images could be recorded at different distances such as 500, 800, 1 100 and 1 400 mm from the LCOS. Dynamically change the focal length offered by the programmable Fresnel phase lenses, multi-plane holographic projection could be performed.

投稿润色
补充资料

中图分类号:O438.1

DOI:10.3788/gzxb20144305.0509002

基金项目:国家自然科学基金(Nos.61377006, 61301296,61201396)、NSFC-广东联合基金(No. U1201255)和博士学科点专项科研基金(No. 20113401130001)资助

收稿日期:2013-12-05

修改稿日期:2014-03-17

网络出版日期:--

作者单位    点击查看

沈川:安徽大学 计算智能与信号处理教育部重点实验室, 合肥 230039
刘凯峰:安徽大学 计算智能与信号处理教育部重点实验室, 合肥 230039
张成:安徽大学 计算智能与信号处理教育部重点实验室, 合肥 230039
程鸿:安徽大学 计算智能与信号处理教育部重点实验室, 合肥 230039
韦穗:安徽大学 计算智能与信号处理教育部重点实验室, 合肥 230039

联系人作者:沈川(shenchuan2502@163.com)

备注:沈川(1986-),男,博士研究生,主要研究方向为全息显示技术.

【1】MAKOWSKI M, DUCIN I, KAKARENKO K, et al.Simple holographic projection in color[J]. Optics Express, 2012, 20(22): 25130-25136.

【2】WANG Tao, YU Ying-jie, ZHENG Hua-dong. Removal of magnification chromatism in optoelectronic full color holography[J]. Optics and Precision Engineering, 2011, 19(6): 1414-1420.
王涛, 于瀛洁, 郑华东. 彩色全息光电再现倍率色差的消除[J]. 光学精密工程, 2011, 19(6):1414-1420.

【3】SYPEK M, KOLODZIEJCZYK A, MIKUL G. Three-plane phase-only computer hologram generated with iterative Fresnel algorithm[J]. Optical Engineering, 2005, 44(12): 125805.

【4】MAKOWSKI M, SYPEK M, KOLODZIEJCZYK A,et al. Iterative design of multiplane holograms: experiments and applications[J]. Optical Engineering, 2007, 46(4): 045802.

【5】YING C F, PANG H, FAN C J, et al. New method for the design of a phase-only computer hologram for multiplane reconstruction[J]. Optical Engineering, 2011, 50(5): 055802.

【6】DORSCH R G, LOHMANN A W, SINZINGER S. Fresnel ping-pong algorithm for two-plane computer-generated hologram display[J]. Applied Optics,1994, 33(5): 869-875.

【7】GULSES A A, JENKINS B K. Multi-plane image reconstruction using cascaded phase elements[C]. In Digital Holography and Three-Dimensional Imaging, Optical Society of America, 2012, DM4C.2.

【8】GULSES A A, JENKINS B K. Cascaded diffractive optical elements for improved multiplane image reconstruction[J]. Applied Optics, 2013, 52(15): 3608-3616.

【9】ZHENG Hua-dong, YU Ying-jie, CHENG Wei-ming. Computer-generated hologram calculation for spatial reconstruction of three-dimensional object[J]. Optics and Precision Engineering, 2008, 16(5): 917-924.
郑华东, 于瀛洁, 程维明. 三维物体空间再现技术中的全息图计算[J]. 光学精密工程, 2008, 16(5): 917-924.

【10】LIANG Yan-ming, ZHANG Pei-qing, GUAN Ye-feng, et al.Reconstruction and visualization of multi-plane images based on spatial light modulator[J]. Acta Photonica Sinica, 2010, 39(10): 1820-1824.
梁艳明, 张培晴, 关烨锋, 等. 基于空间光调制器的多层图像的构建与可视化[J]. 光子学报, 2010, 39(10): 1820-1824.

【11】MA Jian-she, XIA Fei-peng, SU Ping, et al. Survey on key techniques and systems of digital holographic 3D display[J]. Optics and Precision Engineering., 2012, 20(5): 1141-1152.
马建设, 夏飞鹏, 苏萍, 等. 数字全息三维显示关键技术与系统综述[J]. 光学精密工程, 2012, 20(5): 1141-1152.

【12】LIU Kai-feng, SHEN Chuan, ZHANG Cheng, et al. Iterative feedback algorithm for phase-only fresnelhologram and display using liquid crystal on silicon[J/OL]. Acta Photonica Sinica,http://www.cnki.net/kcms/detail/61.1235.O4.20131213.1123.003.html.
刘凯峰, 沈川, 张成, 等.纯相位菲涅尔全息图的反馈迭代算法及其硅基液晶显示[J/OL]. 光子学报, http://www.cnki.net/kcms/detail/61.1235.O4.20131213.1123.003.html.

【13】NIEUBOR N, PANAJOTOV K, GOULET A, et al. Data transparent reconfigurable optical interconnections based on polarization-switching VCSELs and polarization-selective diffractive optical elements[J]. Photonics Technology Letters, IEEE, 1998, 10(7): 973-975.

【14】CURTIS J E, KOSS B A, GRIER D G. Dynamic holographic optical tweezers[J]. Optics Communications, 2002, 207(1): 169-175.

【15】LIU J S, TAGHIZADEH M R. Iterative algorithm for the design of diffractive phase elements for laser beam shaping[J]. Optics Letters, 2002, 27(16): 1463-1465.

【16】MARTINEZ J L, MARTINEZ-Garcia A,MORENO I. Wavelength-compensated color Fourier diffractive optical elements using a ferroelectric liquid crystal on silicon display and a color-filter wheel[J]. Applied Optics, 2009, 48(5): 911-918.

【17】MORENO I, IEMMI C, MARQUEZ A, et al. Modulation light efficiency of diffractive lenses displayed in a restricted phase-mostly modulation display[J]. Applied Optics, 2004, 43(34): 6278-6284.

【18】YZUEL M J, CAMPOS J, MARQUEZ A, et al. Inherent apodization of lenses encoded on liquid-crystal spatial light modulators[J]. Applied Optics, 2000, 39(32): 6034-6039.

【19】MARQUEZ A, IEMMI C, CAMPOS J, et al. Achromatic diffractive lens written onto a liquid crystal display[J]. Optics Letters, 2006, 31(3): 392-394.

【20】MA S, PANEZAI S, WANG D, et al. The study of diffractive lenses displayed in a phase-only liquid crystal spatial light modulator[C]. Proc. SPIE, International Symposium on Photoelectronic Detection and Imaging: Optical Storage and Display Technology, 2013, 8913: 89130M-1-89130M-9.

【21】BUCKLEY E. Holographic laser projection[J]. Journal of Display Technology, 2011, 7(3): 135-140.

【22】SHEN Chuan, ZHANG Cheng, LIU Kai-feng, et al. Research on issues about reconstructed holographic image based on a pixelated spatial light modulator[J]. Acta Optica Sinica, 2012, 32(3): 0309001.
沈川, 张成, 刘凯峰, 等. 基于像素结构空间光调制器的全息再现像问题研究[J]. 光学学报, 2012, 32(3): 0309001.

【23】ONURAL L, YARAS F, KANG H. Digital holographic three-dimensional video displays[C]. Proceedings of the IEEE, 2011, 99(4): 576-589.

【24】COTTRELL D M, DAVIS J A, HEDMAN T R, et al. Multiple imaging phase-encoded optical elements written as programmable spatial light modulators[J]. Applied Optics, 1990, 29(17): 2505-2509.

【25】古德曼. 傅里叶光学导论[M]. 秦克诚译. 北京: 电子工业出版社, 2011.

【26】GERCHBERG R W, SAXTON WO. A practical algorithm for the determination of the phase from image and diffraction plane pictures[J]. Optik, 1972, 35: 237-246.

【27】COLLINGS N, DAVEY T, CHRISTMAS J, et al. The applications and technology of phase-only liquid crystal on silicon devices[J]. Journal of Display Technology, 2011, 7(3): 112-119.

【28】GEORGIOU A, CHRISTMAS J, MOORE J, et al. Liquid crystal over silicon device characteristics for holographic projection of high-definition television images[J]. Applied Optics, 2008, 47(26): 4793-4803.

【29】ZHANG H, XIE J, LIU J, et al. Elimination of a zero-order beam induced by a pixelated spatial light modulator for holographic projection[J]. Applied Optics, 2009, 48(30): 5834-5841.

【30】PALIMA D, DARIA V R. Holographic projection of arbitrary light patterns with a suppressed zero-order beam[J]. Applied Optics, 2007, 46(20): 4197-4201.

【31】GEUSEBROEK J M, BURGHOUTS G J, SMEULDERS A W. The Amsterdam library of object images [J]. International Journal of Computer Vision, 2005, 61(1): 103-112.

引用该论文

SHEN Chuan,LIU Kai-feng,ZHANG Cheng,CHENG Hong,WEI Sui. Multi-plane Holographic Projection Using Programmable Fresnel Phase Lenses[J]. ACTA PHOTONICA SINICA, 2014, 43(5): 0509002

沈川,刘凯峰,张成,程鸿,韦穗. 可编程菲涅耳相位透镜应用于多平面全息投影[J]. 光子学报, 2014, 43(5): 0509002

被引情况

【1】程鸿,陈娅萍,张成,沈川,韦穗. 基于正弦光栅调制的相位恢复. 光子学报, 2016, 45(4): 405003--1

【2】程 鸿,吕倩倩,张文君,邓会龙,高要利. 基于硅基液晶变焦透镜的相位恢复方法. 中国激光, 2017, 44(3): 304001--1

您的浏览器不支持PDF插件,请使用最新的(Chrome/Fire Fox等)浏览器.或者您还可以点击此处下载该论文PDF