摘要
针对复杂光机系统设计中光瞳光轴位置的传递问题,构建了光瞳光轴镜耦合控制的算法模型以及实施控制的解析公式。依据耦合控制流程,阐述了解析公式中各系数的标定过程及其方法。同时通过搭建的试验光路,验证了上述模型及解析公式的合理性。结合探测器靶面上解算出的光瞳光轴光斑中心,通过光瞳光轴耦合镜各自两电机联动控制,可单步内实现光瞳光轴的快速耦合。执行3次不同控制策略下的光瞳光轴耦合,可使光瞳耦合精度达到近场光斑的0.2%,光轴耦合精度达到3μrad。
For the transfer of the pupil and optical axis position in the design of complex optical mechanical system,the algorithm model of coupling control of the pupil mirror and the optical axis mirror and the analytical formula for implementing control are constructed.Based on the coupling control process,the calibration process and method of each coefficient in the analytical formula are elaborated.At the same time,the rationality of the above model and the analytical formula is verified through the built test optical path.Combined with the calculated pupil and optical axis spot center on the target plane of the detector,the fast coupling of pupil and optical axis can be realized in one step through the linkage control of the two motors of the pupil and optical axis coupling mirrors.The pupil can achieve an accuracy of 0.2%of the near field spot and an accuracy of 3μrad for the optical axis by performing three different control strategies for the pupil and optical axis coupling.
作者
蒋志雄
解平
严伟
Jiang Zhixiong;Xie Ping;Yan Wei(Institute of Applied Electronics,CAEP,Mianyang 621900,China)
出处
《强激光与粒子束》
CAS
CSCD
北大核心
2023年第8期39-44,共6页
High Power Laser and Particle Beams
关键词
光瞳光轴
自动
准直技术
耦合控制
质心
pupil and optical axis
automatic
collimation technique
coupling control
centroid