激光/红外双模环形孔径导引头光学系统设计

Optical system design of laser/infrared dual-mode annular aperture seeker

  • 摘要: 为了实现激光/红外双模导引头成像系统的小型化,简化光学系统结构,设计了四次反射的双模共光路环形孔径超薄成像系统,研究了该系统的分光路设计原理,给出了遮拦比与视场角的关系,实现了仅有单一光学元件的长波红外7.7~9.5 μm和激光1.064 μm双模导引头成像系统。双模环形孔径系统在长波红外波段的焦距为70 mm、等效F数为1.3、全视场为8°、空间频率为41.7 lp/mm时各视场MTF值均大于0.136。双模环形孔径系统在激光波长的焦距为53.8 mm、等效F数为1、全视场为10°、全视场范围内的光斑分布均匀。在环境温度范围为−40~80 ℃时,长波红外波段各视场MTF值均大于0.13,激光波长的弥散斑形状和能量分布基本不变,实现了光学被动无热化。通过公差分析可知双模环形孔径系统具备可加工性。

     

    Abstract: In order to realize the miniaturization of the laser/infrared dual-mode seeker imaging system and simplify the optical structure, a dual-mode common optical path annular aperture ultrathin imaging system with four reflections is designed. The design principle of the optical splitting path of the system is studied, and the relationship between the obscuration ratio and the field of view is given. The long-wave infrared (LWIR) 7.7-9.5 μm and laser 1.064 μm dual-mode seeker imaging system is realized by a single optical element. The focal length of the dual-mode annular aperture system in the LWIR is 70 mm, the equivalent F number is 1.3, and the full field of view is 8°. The modulation transfer function (MTF) values of each field of views are greater than 0.136 when the spatial frequency is 41.7 lp/mm. The focal length of the dual-mode annular aperture system at the laser wavelength is 53.8 mm, the equivalent F number is 1, the full field of view is 10°, and the spot diagram in the full field of view is uniform. When the ambient temperature ranges from −40 ℃ to 80 ℃, the MTF value of each field of view is greater than 0.13 in the LWIR, and the energy distribution is basically unchanged in laser wavelength. As a result, the optical passive athermalization is realized. According to the tolerance results, this system is machinable.

     

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