基于光学设计软件的太赫兹面阵成像系统性能分析

李琦; 夏志伟; 姚睿; 丁胜晖; 王骐

doi:doi:10.3788/cjl201138.0411001

中国激光, 2011, 38 (4): 0411001, 网络出版: 2011-03-24

基于光学设计软件的太赫兹面阵成像系统性能分析下载： 526次

Analysis of a Terahertz Array Imaging System Using Optical Design Software

论文大纲

李琦 ^*夏志伟姚睿丁胜晖王骐

作者单位

哈尔滨工业大学可调谐激光技术国家级重点实验室，黑龙江哈尔滨 150081

成像系统太赫兹面阵探测离轴抛物面镜 imaging systems terahertz array detection off-axis parabolic mirror

摘要

太赫兹成像是太赫兹技术的重要发展方向，其中具备实时成像能力的面阵成像系统引起了广泛的研究兴趣。在成像系统的设计中需要尽可能地减小能量损耗，由于离轴抛物面镜具有较小的能量损耗，且便于系统设计，因此在太赫兹成像系统的设计中常被用到。但离轴抛物面镜的引入会带来一定的畸变以及装调困难。利用光学设计软件ZEMAX，对一种具有离轴抛物面镜的太赫兹面阵成像系统进行了成像性能分析，特别研究了接收部分中离轴抛物面镜装调误差对成像质量的影响。仿真结果表明，理想情况下，系统分辨率约为0.5 mm且网格畸变只有0.069%；该系统容许光学接收部分的离轴抛物面镜最大倾斜角1.1°，最大偏心距6.5 mm。

Abstract

Nowadays, terahertz(THz) imaging is an important research focus among the development of THz techniques. And imaging systems based on array detectors which have real time imaging capability have attracted lots of research interests. It is essential to reduce power losses during the system design. Owing to the low energy losses and design convenience it brings, off-axis parabolic mirrors have been frequently used in many THz imaging systems. A 2D THz array imaging system comprised of off-axis parabolic mirrors is analyzed using an optical design software ZEMAX. The deterioration of the image quality caused by the misalignment of off-axis parabolic mirror in the receiving part is investigated. The simulation results show that the image resolution can reach 0.5 mm for the ideal case, and the grid distortion is 0.069%. The system has a tolerance of 1.1° for the misalignment angle of the off-axis parabolic mirror. The tolerance for the decenter error is 6.5 mm.

参考文献

[1] 杨昆, 赵国忠, 梁承森等. 脉冲太赫兹波成像与连续波太赫兹成像特性的比较［J］. 中国激光, 2009, 36(11): 2853～2858

Yang Kun, Zhao Guozhong, Liang Chengsen et al.. Comparison between pulsed terahertz imaging and continuous-wave terahertz imaging［J］. Chinese J. Lasers, 2009, 36(11): 2853～2858

[2] 邓朝, 刑春飞, 吕默等. 连续太赫兹波远距离成像［J］. 光学学报, 2009, 29(s1): 50～52

Deng Chao, Xing Chunfei, Lü Mo et al.. CW THz standoff imaging［J］. Acta Optica Sinica, 2009, 29(s1): 50～52

[3] . C. M. Planken, H. J. Bakker. Towards time-resolved THz imaging[J]. Appl. Phys. A, 2004, 78(4): 465-469.

[4] Hua Zhong, Nick Karpowicz, Jason Partridge et al.. Terahertz wave imaging for landmine detection［C］. SPIE, 2004, 5411: 33～44

[5] 张亮亮, 张岩, 钟华等. 太赫兹焦平面多波长相位成像［J］. 中国激光, 2009, 36(s1): 276～279

Zhang Liangliang, Zhang Yan, Zhong Hua et al.. Terahertz focal-plane multiwavelength phase imaging［J］. Chinese J. Lasers, 2009, 36(s1): 276～279

[6] . Kleine-Ostmann, P. Knobloch, M. Koch et al.. Continuous-wave THz imaging[J]. Electron. Lett., 2001, 37(24): 1461-1463.

[7] . Real-time, continuous-wave terahertz imaging by use of a microbolometer focal-plane array[J]. Opt. Lett., 2005, 30(19): 2563-2565.

[8] . M. Lee, Benjamin S. Williams, Sushil Kumar et al.. Real-time imaging using a 4.3-THz quantum cascade laser and a 320×240 microbolometer focal-plane array[J]. IEEE Photonics Technol. Lett., 2006, 18(13): 1415-1417.

[9] Jun Yang, Shuangchen Ruan, Min Zhang. Real-time, continuous-wave terahertz imaging by a pyroelectric camera［J］. Chin. Opt. Lett., 2008, 6(1): 29～31

[10] Rui Yao, Qi Li, Qi Wang. 1.63-THz transmission imaging experiment by use of a pyroelectric camera array［C］. SPIE, 2009, 7277: 72770D

[11] Rui Yao, Qi Li, Shenghui Ding et al.. Investigation on 2.45-THz array transmission imaging［C］. SPIE, 2009, 7385: 73850P

[12] 李琦, 姚睿, 单纪鑫等. 基于热像仪的太赫兹成像及图像增强初步研究［J］. 光学学报, 2008, 28(s2): 275～277

Li Qi, Yao Rui, Shan Jixin et al.. A preliminary study on THz imaging and image enhancement based on thermal imager［J］. Acta Optica Sinica, 2008, 28(s2): 275～277

[13] 李琦, 姚睿, 单纪鑫等. 2.5 THz面阵实时成像及图像处理初步研究［J］. 光学学报, 2009, 29(s1): 84～88

Li Qi, Yao Rui, Shan Jixin et al.. Preliminary study on 2.5 THz array real-time imaging and image processing［J］. Acta Optica Sinica, 2009, 29(s1): 84～88

[14] 姚睿, 丁胜晖, 李琦等. 2.52 THz面阵透射成像系统的改进及分辨率分析［J］. 中国激光, 2011, 38(1): 0111001

Yao Rui, Ding Shenghui, Li Qi et al.. Improvement of 2.52 THz array transmission imaging system and resolution analysis［J］. Chinese J. Lasers, 2011, 38(1): 0111001

[15] . Li, S. H. Ding, R. Yao et al.. Real-time, THz scanning imaging by use of a pyroelectric array camera and image denoising[J]. J. Opt. Soc. Am. A, 2010, 27(11): 2381-2386.

[16] 罗曦, 陈培锋, 王英. 离轴90°抛物面镜焦斑特性分析［J］. 光学学报, 2009, 29(3): 682～687

Luo Xi, Chen Peifeng, Wang Ying. Analysis of 90° off-axis parabolic mirror focal spot characteristic［J］. Acta Optica Sinica, 2009, 29(3): 682～687

[17] . Optimal arrangement of 90° off-axis parabolic mirrors in THz setups[J]. Optik, 2010, 121(1): 113-119.

[18] . . Design and evaluation of a THz time domain imaging system using standard optical design software[J]. Appl. Opt., 2008, 47(27): 4994-5006.

李琦, 夏志伟, 姚睿, 丁胜晖, 王骐. 基于光学设计软件的太赫兹面阵成像系统性能分析[J]. 中国激光, 2011, 38(4): 0411001. Li Qi, Xia Zhiwei, Yao Rui, Ding Shenghui, Wang Qi. Analysis of a Terahertz Array Imaging System Using Optical Design Software[J]. Chinese Journal of Lasers, 2011, 38(4): 0411001.

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