基于空间光调制的光束聚焦实时反馈控制方法及系统

谢志坤; 钱伟岸; 张金辉; 李少锋; 卫冠; 张冰志; 陈志峰

doi:doi:10.3788/lop54.072201

激光与光电子学进展, 2017, 54 (7): 072201, 网络出版: 2017-07-05

基于空间光调制的光束聚焦实时反馈控制方法及系统下载： 604次

Real-Time Feedback Control Method and System of Beam Focusing Based on Spatial Light Modulation

论文大纲

谢志坤 ^*钱伟岸张金辉李少锋卫冠张冰志陈志峰

作者单位

广州大学物理与电子工程学院, 广东广州 510006

光学设计聚焦控制实时反馈调节空间光调制器 optical design focus control real-time feedback adjustment spatial light modulator

AI 词云图 AI语音精读 AI语音超短摘要

注：本部分内容由 AI 自动生成，请您知悉。

摘要

提出一种基于空间光调制的光束聚焦控制方法，利用液晶空间光调制器产生动态的二元菲涅耳透镜相位结构，以实现对光束焦斑的轴向与横向偏移的快速精确调节。采用面阵探测器检测光斑大小与位置信息，结合反馈控制机制可实现对光束聚焦点三维位置的自动校准及稳定性控制。该方法在调节过程中不同偏移量之间不存在耦合影响，且横向偏移调节对光传输距离不敏感。进一步介绍了基于该方法搭建的光束聚焦实时反馈控制系统。实验表明，光束焦斑的轴向校准能做到精确快速的收敛。横向偏移校准方面，在较短焦距的情况下能做到单步收敛，而在较长焦距的情况下需要结合比例积分微分控制算法进行调节，如利用数据拟合对调节误差进行经验修正，也可做到单步收敛。

Abstract

A method of beam focusing control based on the spatial light modulation is proposed. In order to realize the rapid and precise adjustment on the axial and transverse deviations of the beam focusing, the liquid crystal spatial light modulator is adopted to produce the dynamic phase structure of binary Fresnel lens. An area array detector is used to detect the size and position of the light spot. And combining the feedback control mechanism, the automatic calibration and stability control on the beam focus point of three-dimensional position can be realized. In the adjustment process of this method, there is no coupling among different deviations, and the transverse deviation adjustments are insensitive to the propagation distance. Furthermore, the real-time feedback control system of beam focusing based on this method is introduced. The experiment results show that the axial calibration of the beam focal spot can converge precisely and rapidly. The transverse deviation calibration can converge with single step in the case of short focal length. In the case of long focal length, the combination of proportion-integration-differentiation algorithm is need to adjust. The convergence with single step can be also realized if an experiential correction on the adjustment errors based on the data fitting are corrected experimentally.

参考文献

[1] Hao Q, Li D C, Wang Y T. High-accuracy long distance alignment using single-mode optical fiber and phase plate［J］. Optics & Laser Technology, 2002, 34(4): 287-292.

[2] Luo D, Kuang C F, Hao X, et al. High-precision laser alignment technique based on spiral phase plate［J］. Optics and Lasers in Engineering, 2012, 50(7): 944-949.

[3] Feng Q B, Zhang B, Kuang C F. A straightness measurement system using a single-mode fiber-coupled laser module［J］. Optics & Laser Technology, 2004, 36(4): 279-283.

[4] 赵维谦, 谭久彬, 马洪文, 等. 漂移量反馈控制式激光准直方法［J］. 光学学报, 2004, 24(3): 373-377.

Zhao Weiqian, Tan Jiubin, Ma Hongwen, et al. Laser collimation method based on the drift feedback control［J］. Acta Optica Sinica, 2004, 24(3): 373-377.

[5] Zhao W Q, Tan J B, Qiu L R, et al. Enhancing laser beam directional stability by single-mode optical fiber and feedback control of drifts［J］. Review of Scientific Instruments, 2005, 76(3): 036101.

[6] 李耀, 王丁, 郭晓杨, 等. 基于CMOS传感器的高速高精度激光光束自动准直系统［J］. 中国激光, 2013, 40(9): 0916002.

Li Yao, Wang Ding, Guo Xiaoyang, et al. Fast and accurate laser beam automatic alignment system based on CMOS sensor［J］. Chinese J Lasers, 2013, 40(9): 0916002.

[7] 陈志峰, 黎达宇, 吴卓麒, 等. 基于偏转平移光路的激光束方位自动校准方法及系统［J］. 光学学报, 2016, 36(7): 0722003.

Chen Zhifeng, Li Dayu, Wu Zhuoqi, et al. Automatic calibration method and system of laser beam orientation based on deflection and translation of optical paths［J］. Acta Optica Sinica, 2016, 36(7): 0722003.

[8] 赵祥杰, 张大勇, 骆永全. 反射式液晶空间光调制器电控光束偏转［J］. 强激光与粒子束, 2012, 24(6): 1324-1328.

Zhao Xiangjie, Zhang Dayong, Luo Yongquan. Elector-controllable optical beam deflection employing reflective liquid crystal spatial light modulator［J］. High Power Laser and Particle Beams, 2012, 24(6): 1324-1328.

[9] 张彩, 黄永梅, 亓波, 等. 基于液晶空间光调制器的光束偏转控制［J］. 中国激光, 2011, 38(9): 0905005.

Zhang Cai, Huang Yongmei, Qi Bo, et al. Beam steering control based on liquid crystal spatial light modulator［J］. Chinese J Lasers, 2011, 38(9): 0905005.

[10] 师宇斌. 基于液晶相控阵的光束定向跟瞄技术研究［D］. 长沙: 国防科学技术大学, 2013: 11-33.

Shi Yubin. Study onbeam directing, tracking and aiming technique based on liquid crystal phased array［D］. Changsha: Graduate School of National University of Defense Technology, 2013: 11-33.

[11] Wang Xinghua, Wang Bin, Bos P J, et al. Modeling and design of an optimized liquid-crystal optical phased array［J］. Journal of Applied Physics, 2005, 98(7): 073101.

[12] Xu Lin, Huang Ziqiang, Yang Ruofu. Programmable agile beam steering based on a liquid crystal prism［J］. Chinese Phys B, 2011, 20(11): 114216.

[13] 许剑华, 汪相如, 黄子强, 等. 基于液晶光学相控阵的空间激光通信PID跟踪方法［J］. 激光与光电子学进展, 2017, 54(2): 021202.

Xu Jianhua, Wang Xiangru, Huang Ziqiang, et al. PID tracking method of space laser communication based on liquid crystal optical phased array［J］. Laser & Optoelectronics Progress, 2017, 54(2): 021202.

[14] 陈怀新, 魏宏刚, 陈祯培, 等. 采用液晶空间光调制器的可控性阵列菲涅耳波带片［J］. 光子学报, 2001, 30(5): 562-566.

Chen Huaixin, Wei Honggang, Chen Zhenpei, et al. A controllable array Fresnel zone plates using liquid crystal spatial light modulator［J］. Acta Photonica Sinica, 2001, 30(5): 562-566.

[15] 邹丽敏, 庞明姝, 周梦姣, 等. 基于纯相位液晶空间光调制器的共焦三维扫描方法研究［J］. 光电子·激光, 2014, 25(12): 2329-2335.

Zou Limin, Pang Mingshu, Zhou Mengjiao, et al. Research of confocal 3D scanning method based on phase-only liquid crystal spatial light modulator［J］. Journal of Optoelectronics·Laser, 2014, 25(12): 2329-2335.

[16] 纪宪明, 沐仁旺, 韩良恺. 可用作分光元件的二元菲涅耳透镜［J］. 光电工程, 2003, 30(6): 4-7.

Ji Xianming, Mu Renwang, Han Liangkai. A binary Fresnel lens used as light splitting element［J］. Opto-Electronic Engineering, 2003, 30(6): 4-7.

[17] 王春阳, 李金石. 激光光斑漂移的检测［J］. 应用光学, 2007, 28(2): 205-208.

Wang Chunyang, Li Jinshi. Detection of laser spot drift［J］. Journal of Applied Optics, 2007, 28(2): 205-208.

[18] 曾沛颖, 刘代中, 彭增云, 等. 基于以太网的自动准直系统研究［J］. 中国激光, 2014, 41(3): 0302009.

Zeng Peiying, Liu Daizhong, Peng Zengyun, et al. Research of auto-alignment system based on ethernet［J］. Chinese J Lasers, 2014, 41(3): 0302009.

[19] 冯国英, 周寿桓. 激光光束质量综合评价的探讨［J］. 中国激光, 2009, 36(7): 1643-1653.

Feng Guoying, Zhou Shouhuan. Discussion of comprehensive evaluation on laser beam quality［J］. Chinese J Lasers, 2009, 36(7): 1643-1653.

谢志坤, 钱伟岸, 张金辉, 李少锋, 卫冠, 张冰志, 陈志峰. 基于空间光调制的光束聚焦实时反馈控制方法及系统[J]. 激光与光电子学进展, 2017, 54(7): 072201. Xie Zhikun, Qian Weian, Zhang Jinhui, Li Shaofeng, Wei Guan, Zhang Bingzhi, Chen Zhifeng. Real-Time Feedback Control Method and System of Beam Focusing Based on Spatial Light Modulation[J]. Laser & Optoelectronics Progress, 2017, 54(7): 072201.

基于空间光调制的光束聚焦实时反馈控制方法及系统下载： 604次

关于本站 Cookie 的使用提示

全站搜索

基于空间光调制的光束聚焦实时反馈控制方法及系统 下载： 604次

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索

基于空间光调制的光束聚焦实时反馈控制方法及系统下载： 604次