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可见光波段多路激光合束及闭环校正技术研究

Multi-channel laser beam combining and closed-loop correction technology in visible light band
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摘要 为了实现可见光波段多路不同波长激光的周期性闭环校正,设计了一种具有光束指向和位置偏差独立监测与调节的激光合束系统。首先,根据系统的应用需求,提出了合束系统的设计指标与整体合束方案。然后,在合束方案的基础上,建立了合束系统的光束控制模型,并通过数值仿真得到了合束系统光束控制的解算方法。闭环合束系统通过光束指向和位置监测装置分别实现合束激光指向偏差与位置偏差的独立监测,并根据监测结果进行光束调节装置控制量的解算;进而通过两维摆镜和一维平移台分别实现光束指向和位置偏差的独立高效调节。最后,采用两路不同波长的激光束,配合光束监测与调节装置,搭建了闭环合束模拟实验平台,对周期性闭环合束系统的合束效果进行了验证。实验结果表明:在长时间的工作过程中,两路激光均实现了与基准光路的精密合束,合束指向精度优于±7μrad,位置精度优于±0.84 mm。本研究所组建的激光合束系统不仅具有合束精度高、校正速度快、光路扩展性强的优势,而且可实现激光束的周期性闭环校正,能够有效保证合束激光的长期工作稳定性。 To achieve periodic closed-loop correction of multiple lasers with different wavelengths in the visible wavelength band,a laser beam combining system is designed.This system involves independent monitoring and adjusting of beam pointing and position deviation.First,according to the application requirements of the system,the design indexes of the beam combining system and the overall beam combining scheme are proposed.Then,based on the overall beam combining scheme,we establish the beam control model for the beam combining system.Through numerical simulation experiments,we obtain the solution method for beam control of the beam combining system.The closed-loop beam combining system realizes independent monit-oring of the unit beam’s pointing and position deviation through the respective beam pointing and position monitoring device.The monitoring results are then used to calculate the control quantity of the beam adjust-ing device.The independent and efficient adjustment of beam pointing and position deviation is achieved us-ing a two-dimensional swing mirror and a one-dimensional platform,respectively.Finally,a closed-loop beam combining simulation experimental system with beam monitoring and adjustment device is built using two laser beams of different wavelengths.The periodic closed-loop beam combining system is verified to have an effective beam combing effect.The experimental results demonstrate that over an extended operational period,both lasers achieve precise beam combining with the reference optical path.Furthermore,the beam combining pointing accuracy is better than±7μrad,and the positioning accuracy is better than±0.84 mm.The laser beam combining system developed in this study boast high beam combining accuracy,a fast correc-tion speed,and excellent augmentability for multiple laser beams.Besides,it can accomplish periodic closed-loop beam combining of laser beams,ensuring long-term working stability of the combined laser.
作者 徐新行 李高生 谢兵 韩旭东 XU Xin-hang;LI Gao-sheng;XIE Bing;HAN Xu-dong(Changchun Institute of Optics,Fine Mechanics and Physics,Chinese Academy of Sciences,Changchun 130033,China;AVIC CAMA(ShangHai)Infrared Technology Co.Ltd,Shanghai 201306,China;32031 Unit of PLA,Kaifeng 475000,China)
出处 《中国光学(中英文)》 EI CAS CSCD 北大核心 2024年第2期342-353,共12页 Chinese Optics
基金 吉林省科技发展计划资助项目(No.20180520185JH)。
关键词 激光合束 光束监测 光束控制 指向偏差 位置偏差 laser beam combining beam monitoring beam control beam direction deviation beam position-al deviation
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