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[文献分享] Design method research of a radiation-resistant zoom

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    2024-11-22 08:11
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    发表于 2024-9-24 14:14 | 显示全部楼层 |阅读模式

    1. Introduction
    With the enrichment of zoom optical system design theory and
    the continuous improvement of mechanical processing capabilities, the
    imaging quality of the zoom optical system is basically comparable to
    that of a fixed focus lens [1,2]. In the zoom optical system, adjusting
    the cam can continuously change the focal length of the system to make
    the imaging magnification of the object change continuously, which
    can not only search the interested target in a large range but also track
    and observe the object precisely [3,4]. Hence, zoom optical system has
    been widely used in many fields, such as target tracking, photography,
    and security monitoring [5–7].
    In the process of the zoom optical system design, the imaging
    quality of the optical system at all focal lengths needs to be considered.
    Therefore, the aberration correction of the zoom optical system is often
    difficult, especially the chromatic aberration and spherical aberration
    at the long focal length [8]. The larger the zoom ratio of the zoom
    optical system, the more difficult it is to correct the aberrations of the
    optical system. Therefore, in the process of the zoom optical system
    design, low-dispersion lenses, aspheric lenses, and diffractive elements
    are generally used to improve the image quality. Zhang et al. proposed
    to use the harmonic diffractive lens and new aspheric lens for aber
    ration correction [9]. Using four harmonic diffractive lenses and four
    new aspheric lenses, and using a multi-component full-motion zoomstructure, a 300× visible light zoom optical system was designed; Hou
    et al. designed a large aperture zoom projection optical system with
    five-element structure, which used two aspheric lenses [10]; Ma et al.
    designed a three-step underwater zoom optical system, which used two
    aspheric lenses for aberration correction [11]. However, all the lenses
    of these zoom optical systems are made of conventional glass materials,
    so the life of these zoom lenses is extremely short in the strong radiation
    environment.
    There are few kinds of radiation-resistant glass materials compared
    with conventional glass materials, which is extremely disadvantageous
    for the chromatic aberration correction of the zoom optical system. In
    addition, there are few reports on the design of zoom optical systems
    with specific two kinds of glass materials. Therefore, in order to in
    crease the life of the zoom lens in the strong radiation environment,
    this paper proposes a method to design a zoom optical system using spe
    cific radiation-resistant materials. Aiming at the difficulty of chromatic
    aberration correction of the radiation-resistant zoom optical system,
    this paper analyzes the configuration selection and initial configuration
    established method of the zoom optical system. A 6× continuous zoom
    optical system with only two radiation-resistant glass materials Silica
    and ZF506 is designed by using the design method proposed in this
    paper. The imaging experiment shows that the system has high imaging
    quality

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