Computer-aided beam path generation and assessment for Stevick-Paul telescopes

M. Wagner, G. Fütterer
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Abstract

At Deggendorf Institute of Technology a student project is currently under way to build a Stevick-Paul telescope for astrophotography. An important step in the overall development procedure of each telescope is the design of a beam-path and ensuring its suitability under optical and engineering aspects. The students performed this process in a sequential manner by using several different computer programs (e.g. MATLAB, Zemax, Creo Parametric). To accelerate the beam path design process, a Python program to automate the major part of the design process with minimum human supervision was created. The input data of the python program consists of ranges of the desired characteristics of the Stevick-Paul telescope, such as focal lengths, primary mirror diameters and tilts etc., mirror thickness and mount geometries, as well as the specific type of camera. After setting the input, the program creates 2D cross-sections of beam paths according to the formulas of D. Stevick and may introduce a flat fold mirror to reduce the overall system size as well as improve the accessibility of the focus plane. The subsequent assessment routine checks against the susceptibility for stray light and performs a complex analysis of the available installation space to ensure sufficient mechanical tolerances. In this way, collisions between mirrors, mounts and cameras are avoided and obstructions of the beam path are prevented. At any stage, the program can produce graphical representations of the beam paths. In this paper the computer-aided design of a telescope beam path with a focal length of 2400 mm is demonstrated. During development of the software, a subset of folded Stevick-Paul telescopes, in which certain components are parallel, was found. This subset may be useful to simplify the alignment procedure. In conclusion, further refinement of the software is necessary, although the program is already a useful aid for certain aspects when creating a beam path design.
史蒂夫克-保罗望远镜的计算机辅助光束路径生成与评估
在德根多夫理工学院,一个学生项目正在进行中,目的是建造一个用于天文摄影的史蒂夫克-保罗望远镜。在每个望远镜的整个开发过程中,一个重要的步骤是设计光束路径,并确保其在光学和工程方面的适用性。学生们使用几个不同的计算机程序(例如MATLAB, Zemax, Creo Parametric)以顺序的方式完成了这个过程。为了加速光束路径的设计过程,我们创建了一个Python程序,以最少的人工监督来自动化设计过程的主要部分。python程序的输入数据包括stewick - paul望远镜的期望特性范围,如焦距、主镜直径和倾角等,反射镜厚度和安装几何形状,以及特定类型的相机。设置输入后,程序创建二维截面梁的路径的公式d Stevick和可能会引入平面折叠镜来减少整个系统的大小以及提高可访问性焦点平面。后续评估常规检查对杂散光的易感性和执行一个复杂的分析可用的安装空间,以确保足够的机械公差。通过这种方式,避免了镜子、支架和相机之间的碰撞,并防止了光束路径的阻碍。在任何阶段,该程序都可以生成光束路径的图形表示。本文论述了焦距为2400 mm的望远镜光束路径的计算机辅助设计。在软件开发过程中,发现了折叠的史蒂夫克-保罗望远镜的子集,其中某些组件是平行的。这个子集可能有助于简化对齐过程。总之,进一步完善的软件是必要的,虽然程序已经是一个有用的援助,当创建一个光束路径设计的某些方面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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