In this paper, in order to track and measure the long-distance target, a continuous zoom optical system with a diameter of 400mm and focal length of 1000mm-4000mm is designed. The imaging quality evaluation of optical system is mainly carried out from the following five aspects: field curvature, distortion, transfer function MTF of optical system, energy concentration and spot array. Through the simulation calculation of image quality, the performance of optical system meets the requirements of clear imaging.
In this paper, a homogeneous off-axis reflective infrared imaging system with an aperture of Φ300mm is designed according to the requirements. The calculation and optimization of structural parameters are completed in the optical software Code V. The system obscuration is eliminated by combining aperture off-axis with off-axis field of view. By introducing complex surface type to correct the residual aberrations, the off-axis optical system with good capability and structure size meeting the overall layout requirements is obtained. The system is composed by main reflector (F-1), secondary mirror (F-2), plane mirror (M) and the third mirror (F-3). The mirror M is a folding reflector; even aspheric surface is used for both F-1, F-2 and F-3 mirror. The uncooled thermal imager is used as the imaging device. The target plane of the detector is 10.88mm × 8.70mm, and the corresponding field of view is 0.6 °× 0.45 °. At 15lp / mm, MTF > 0.2 is close to the diffraction limit of the system, and the wavefront aberration of the full field of view is less than 0.01λ. The distortion is less than 1.2%.
Super-wide FOV lens has a short focal length, making the detection distance shorter. To suit the need of long detection distance, the inversed telephoto structure is used. In this paper, we designed a super-wide FOV camera system with a negative-positive inversed telephoto structure, whose FOV is 95°×71.25°.And optical aberration were analyzed detailedly, the structure of foreside and backside were made certain respectively, based on these, optical optimum design was accomplished.The result shows that in the entire field of view, the MTF at 60lp/mm is more than 0.4, the diameter RMS of spot diagram dispersion circle is less than 5 microns and the maximum distortion is less than 5%. The result shows that it meets the requirement of system well.
According to the requirement of system,an one-dimensional beam shaping system is designed for semiconductor laser. In this beam shaping system, we choose an aspheric cylindrical mirror as the shaping element. To design the aspheric cylindrical mirror, we first calculate the incipient structure and then use the software light tools to optimize and simulate. The result shows that for a semiconductor laser whose beam diverging angle is 40°, the diverging angle will smaller than 1mrad after shaping by the aspheric cylindrical mirror. Also, we test the actual beam shaping system and the result shows that it meets the requirement of system well.
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