SRG空间天文台RTT-150轨道校正控制高精度天文观测

IF 1.1 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS Astronomy Letters-A Journal of Astronomy and Space Astrophysics Pub Date : 2023-07-18 DOI:10.1134/S1063773723030039
I. M. Khamitov, I. F. Bikmaev
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引用次数: 0

摘要

俄罗斯-土耳其1.5米望远镜(以下简称RTT-150)积极参与俄罗斯光谱-伦琴-伽马(SRG)天文台(德国参与)观测的地面光学支持工作,旨在识别和分类SRG望远镜探测到的新X射线源。RTT-150的仪器能力(偶尔不会显著占用望远镜时间,也不会损害天体物理项目)用于天体测量观测,以控制SRG空间天文台本身的轨道校正。在这些情况下,RTT-150为俄罗斯科学院Keldysh应用数学研究所弹道中心提供了SRG位置的高精度天体测量,这些测量已被用于成功地将其保持在其运行轨道上三年多。从2019年7月飞往拉格朗日点(L_{2}\)区域的飞行阶段开始,一直到2023年3月,在RTT-150观测设施进行了96组(每次持续时间约30分钟)高精度位置观测,进行了5000多次天体测量和光度测量。在大多数情况下,取决于观测和视SRG亮度的测量的位置精度与所提供的星历表的精度一致,分别为赤纬和赤经中的\(0.10^{\prime\prime})和\(0.15^{\fPrime\prime)。在夏季的几个月里,在源极为丰富的区域投影到银河系的中心区域,天体测量精度为(1^{\prime\prime}),足以在校正和随后的轨道细化后进行SRG探测。从地理位置来看,RTT-150是俄罗斯望远镜中用于SRG地面天体物理支持的最南端的仪器。这一事实在赤纬最低位置的SRG位置观测中也极为重要{-}30^{\circ}\)。我们介绍了RTT-150的天体测量和光度观测结果,以及我们在各个领域的天体测量数据简化技术,直到来源极其丰富的领域。
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High-precision Astrometric Observations of the SRG Space Observatory with RTT-150 for Orbit Correction Control

The Russian–Turkish 1.5-m telescope (hereafter RTT-150) takes an active part in the work on the ground optical support of observations by the Russian Spectrum–Röntgen–Gamma (SRG) observatory (with the participation of Germany) aimed at the identification and classification of new X-ray sources detected by the SRG telescopes. The instrumental capabilities of RTT-150 (occasionally, without any significant usage of telescope time and detriment for astrophysical programs) are used in astrometric observations to control the correction of the orbit of the SRG space observatory itself. In these cases, RTT-150 provides the Ballistic Center of the Keldysh Institute of Applied Mathematics of the Russian Academy of Sciences with high-precision astrometric measurements of the SRG position, which have been used to successfully keep it in its operational orbit for more than three years of its exploitation. Beginning from the stage of flight to the zone of the Lagrange point \(L_{2}\) in July 2019 and at the main phase of the all-sky survey mission until March 2023, 96 sets (with a duration of about 30 min each) of high-precision positional observations with more than 5000 astrometric and photometric measurements were carried out at the RTT-150 observing facility. In most cases, the positional accuracy of the measurements dependent on seeing and apparent SRG brightness agrees with the accuracy of the provided ephemerides, \(0.10^{\prime\prime}\) and \(0.15^{\prime\prime}\) in declination and right ascension, respectively. In the summer months in projection onto the central region of the Galaxy in fields extremely rich in sources, the astrometric accuracy is \(1^{\prime\prime}\), sufficient for the SRG detection after the corrections and subsequent refinements of its trajectory. Geographically, RTT-150 is the southernmost instrument among the Russian telescopes for the ground astrophysical support of SRG. This fact is also extremely important in positional SRG observations at the lowest positions in declination \(DEC\sim{-}30^{\circ}\). We present the results of our astrometric and photometric observations with RTT-150 and our astrometric data reduction technique in various fields up to those extremely rich in sources.

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来源期刊
CiteScore
1.70
自引率
22.20%
发文量
0
审稿时长
6-12 weeks
期刊介绍: Astronomy Letters is an international peer reviewed journal that publishes the results of original research on all aspects of modern astronomy and astrophysics including high energy astrophysics, cosmology, space astronomy, theoretical astrophysics, radio astronomy, extragalactic astronomy, stellar astronomy, and investigation of the Solar system.
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