ST5000星跟踪器在气球载平台上的亚弧秒性能

E. Young, R. Mellon, J. Percival, K. Jaehnig, J. Fox, T. Lachenmeier, B. Oglevie, M. Bingenheimer
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引用次数: 10

摘要

ST5000是威斯康星大学开发的一种恒星追踪器,用于美国宇航局的探空火箭有效载荷。为了证明ST5000对尖气球望远镜的适用性,我们在2011年5月6日将ST5000放在平流层气球上飞行。这次飞行解决了我们的四个基本问题:ST5000将从120,000英尺工作(它确实),什么是rms性能(约0.6“),运动的角速度会导致ST5000失败(大于0.5度/秒),ST5000可以作为白天的星跟踪器(不是没有修改)。我们将简要介绍飞行结果,并描述ST5000的定量性能。我们还将描述背景光作为波长、高度和与太阳的角度的函数的问题。我们将讨论使用红外探测器和更长的焦距/缩小的平板来提高白天性能的方法。具有更细刻度的解决方案有可能将星跟踪器的误差信号提高到0.1“水平,这比1米望远镜在5000 Å的衍射极限要好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sub-arcsecond performance of the ST5000 star tracker on a balloon-borne platform
The ST5000 is a star tracker developed at the University of Wisconsin and used in NASA's sounding rocket payloads. In order to demonstrate the ST5000's suitability for pointed balloon-borne telescopes, we flew an ST5000 on a stratospheric balloon on May 6, 2011. This flight addressed our four basic questions: will the ST5000 work from 120,000 ft (it does), what was the rms performance (about 0.6"), what angular rates of motion would cause the ST5000 to fail (greater than 0.5 degrees/sec) and could the ST5000 serve as a daytime star tracker (not without modifications). We will briefly present the results from the flight and describe the ST5000's quantitative performance. We will also describe the problems with background light as a function of wavelength, altitude and angle from the Sun. We will discuss approaches to improve the daytime performance using infrared detectors and longer focal lengths/reduced platescales. Solutions that have finer platescales have the potential to improve the star tracker's error signal to the 0.1" level, which is better than the diffraction limit of a one meter telescope at 5000 Å.
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