QHY-174M-GPS Camera as the Device for Photometry of Artificial Satellites

IF 0.7 Q4 ASTRONOMY & ASTROPHYSICS Artificial Satellites-Journal of Planetary Geodesy Pub Date : 2022-03-01 DOI:10.2478/arsa-2022-0003
V. Kudak, V. Perig
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引用次数: 1

Abstract

Abstract In this paper, we make an attempt to use the QHY174M-GPS camera for the photometry research of fast-rotating artificial objects including debris, satellites and rocket bodies. This device is useful for imaging occultations, eclipses, meteors, and so on due to a highly precise recording of the time (GPS-based) and location of the observation on every frame and fast readout of the CMOS detector. The precision of time registration by the QHY174M-GPS camera is at the level of microseconds. All light curves obtained by studied camera during observations of artificial satellites in this work were carried out at Derenivka Observatory of Uzhhorod National University, Ukraine. The created photometric system with QHY174M-GPS camera as the detector and reflector telescope with parameters D=120mm, F=114mm, FOV=2.82°1.76° was calibrated. For target observations, SharpCap software was used. For the purposes of photometry processing, ccd_phot software was developed using Python 3.8 programming language with astropy and photutils packages. Photometry observations of artificial satellites of the Earth and standard stars were carried out. Over 80 lightcurves of artificial satellites were obtained. Comparing synchronous observations from two sites, separated 15 km from each other, we can conclude that photometry on the QHY174M-GPS camera gave us the same shape of lightcurve and additional advantages, such as time of exposure or simplicity of usage.
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QHY-174M-GPS相机在人造卫星测光中的应用
本文尝试利用QHY174M-GPS相机对碎片、卫星、火箭体等快速旋转的人造物体进行测光研究。该设备对掩星、日食、流星等成像非常有用,因为它可以高度精确地记录每一帧的时间(基于gps)和观测位置,并可以快速读出CMOS探测器。QHY174M-GPS相机的时间配准精度达到微秒级。在这项工作中,所有由研究相机在人造卫星观测期间获得的光曲线都是在乌克兰乌日霍罗德国立大学的德列尼夫卡天文台进行的。建立了以QHY174M-GPS相机为探测器和反射望远镜的测光系统,系统参数D=120mm, F=114mm,视场=2.82°1.76°。对于目标观测,使用SharpCap软件。ccd_phot软件采用Python 3.8编程语言,使用astropy和photutils包进行测光处理。对地球和标准星人造卫星进行了测光观测。获得了80多条人造卫星的光曲线。比较两个相距15公里的地点的同步观测结果,我们可以得出这样的结论:QHY174M-GPS相机的光度测定给我们带来了相同的光曲线形状,以及额外的优势,如曝光时间或使用简单。
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