电光与控制, 2017, 24 (12): 81, 网络出版: 2021-01-22
红外光学系统光轴稳定性建模与分析
Optical Axis Stability Modeling and Analysis of Infrared Optical System
光电探测 红外光学系统 光轴稳定性 LOS方程 光机集成分析 photoelectric detection infrared optical system optical axis stability LOS equation integrated optomechanical analysis
摘要
光轴稳定性是决定红外光学系统探测能力的重要指标, 以往对光轴稳定性的校核过多地依赖装配和调试过程, 在设计阶段缺乏有效的考核手段。以某红外光学系统为研究对象, 提出了一种定位光轴敏感镜片和结构模态的方法, 基于LOS方程建立光轴偏移量与镜面刚体位移之间的多点约束(MPC)方程, 进而得到光轴随温度变化的偏移规律以及在随机振动载荷作用下的响应谱线。通过验证可知, 所提方法对复杂光学系统的光轴稳定性设计有重要的借鉴意义。
Abstract
Optical axis stability is an important indicator of the detection capability of an infrared optical system. Due to the lack of effective means of evaluation at the design stage, the stability check of the optical axis relied too much on the fitting and adjusting process formerly. Taking an infrared optical system as the object of study, we proposed a method to locate sensitive mirrors and structural modes for the optical axis. Based on LOS equations, the Multi-Point Constraint (MPC) equation between the optical-axis offset and rigid-body displacement of mirror surfaces is constructed. And the offset law of the optical axis changing with the temperature and its response spectrum under the effects of random vibration are obtained. The method presented has great significance for the stability design of the optical axis for complex optical systems.
杨耀山, 赵泉, 王建龙, 刘健, 王鹏. 红外光学系统光轴稳定性建模与分析[J]. 电光与控制, 2017, 24(12): 81. YANG Yao-shan, ZHAO Quan, WANG Jian-long, LIU Jian, WANG Peng. Optical Axis Stability Modeling and Analysis of Infrared Optical System[J]. Electronics Optics & Control, 2017, 24(12): 81.