Gaia vs Hipparcos: the Accuracy of Parallax Measurements

Proceedings of The Multifaceted Universe: Theory and Observations - 2022 — PoS(MUTO2022) Pub Date : 2022-09-29 DOI:10.22323/1.425.0010

M. Al-Wardat, A. M. Hussein, Enas M. Abu-Alrob

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引用次数: 1

Abstract

We present a solution for the problem of the discrepancy in the measured trigonometric parallaxes for the stellar binary system HIP 84092. To solve the discrepancy, we used the orbital parameters and our method for analyzing binary and multiple stellar systems (BMSSs)s, described by Al-Wardat in 2002. We used all the available parallax measurements from Gaia DR3, DR2 and Hipparcos-2 in estimating the fundamental parameters of the individual components of the system. Such measurements are usually affected by the orbital motion of the components and the shift of the system photocenter. The masses estimated using the Al-Wardat method along with the modified orbital elements lead to a new dynamical parallax for the system 𝜋 𝐷𝑦𝑛 = 8 . 24 ± 0 . 15 mas, which lies in between the measurements of Hipparcos-2 (8 . 29 ± 0 . 97 mas) and Gaia DR3 (8 . 4806 ± 0 . 4863 mas), while the parallax from Gaia DR2 (20 . 0561 ± 1 . 1615 mas) is far from being accurate. This can be explained by the fact that the Gaia telescope has a higher resolution than that of Hipparcos. Based on the fundamental parameters of the binary system components and their positions on the evolutionary tracks, we conclude that the system consists of A7.5 and F1 solar-metalicity main-sequence stars with an age of 0.708 Gyr. Fragmentation is proposed as the most likely scenario for the formation and evolution of the

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盖亚vs依巴谷:视差测量的准确性

针对双星系统HIP 84092的三角视差测量误差问题，提出了一种解决方法。为了解决这一差异，我们使用了轨道参数和我们的方法来分析由Al-Wardat在2002年描述的双星和多星系统(bmss)。我们使用了盖亚DR3、DR2和Hipparcos-2上所有可用的视差测量值来估计系统各个组成部分的基本参数。这样的测量通常受到组件的轨道运动和系统光中心的移动的影响。用Al-Wardat方法估计的质量和修正的轨道元导致了系统的一个新的动态视差𝐷-𝑛= 8。24±0。它位于Hipparcos-2的测量值之间。29±0。97 mas)和Gaia DR3(8。4806±0。4863 mas)，而从盖亚DR2的视差(20。0561±1。1615年)远不准确。这可以用盖亚望远镜的分辨率比希帕尔科斯高这一事实来解释。根据双星系统组成的基本参数及其在演化轨迹上的位置，我们得出该系统由A7.5和F1太阳金属性主序星组成，年龄为0.708 Gyr。破碎被认为是最可能的形成和演化的情景

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Proceedings of The Multifaceted Universe: Theory and Observations - 2022 — PoS(MUTO2022)

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