Aryabhatta Research Institute of Observational Sciences (ARIES) at Nainital (29° 22’ N, 79° 27’ E, 1950 m amsl) is located in the central Himalayan region. Taking benefit of its pristine geographical location away from major urban pollution a LIDAR system was planned at this location to study the dynamics of atmosphere. Optical design analysis of LIDAR receiver telescope with backend detection optics was carried out in ZEMAX - EE simulation package to optimize system parameters. A concave mirror of 840 mm diameter was used as primary mirror to develop a large aperture LIDAR receiver telescope for receiving back-scattered photons from atmosphere. Mirror was housed in a simple three piece mirror cell manufactured precisely and economically from cast aluminium alloy 535.0 by Lost - Foam casting process. Mirror was kept floating at 18 points on axial supports designed, analyzed and manufactured for maintaining the optical quality of telescope. Solid modeling and deflection analysis of the axial supports confirmed that deflection due to mirror weight was within 10 µ whose effect on degradation of optical parameters was analyzed and found quite negligible.
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机译:位于奈尼塔尔(29°22′N,79°27′E,1950 m amsl)的Aryabhatta观察科学研究所(ARIES)位于喜马拉雅中部地区。利用其不受主要城市污染影响的原始地理位置,在该位置计划了LIDAR系统来研究大气动力学。在ZEMAX-EE仿真程序包中对具有后端检测光学系统的LIDAR接收器望远镜的光学设计进行了分析,以优化系统参数。使用直径为840 mm的凹面镜作为主镜,以开发大孔径LIDAR接收器望远镜,以接收来自大气的反向散射光子。镜子装在一个简单的三件式镜子中,该镜子由铸造的535.0铝合金通过Lost-Foam铸造工艺精确经济地制成。镜在设计,分析和制造的轴向支撑架上保持18个点浮动,以保持望远镜的光学质量。轴向支撑的固体建模和挠度分析证实,由于镜重引起的挠度在10 µm以内,分析了其对光学参数退化的影响,并且可以忽略不计。
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