Ray tracing-based delay model for compensating gravitational deformations of VLBI radio telescopes

IF 0.9 Q4 REMOTE SENSING Journal of Geodetic Science Pub Date : 2022-01-01 DOI:10.1515/jogs-2022-0141
M. Lösler, C. Eschelbach, A. Greiwe, R. Brechtken, C. Plötz, G. Kronschnabl, A. Neidhardt
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Abstract

Abstract The precision and the reliability of very long baseline interferometry (VLBI) depend on several factors. Apart from fabrication discrepancies or meteorological effects, gravity-induced deformations of the receiving unit of VLBI radio telescopes are identified as a crucial error source biasing VLBI products and obtained results such as the scale of a realized global geodetic reference frame. Gravity-induced deformations are systematical errors and yield signal path variations (SPVs). In 1988, Clark and Thomsen derived a VLBI delay model, which was adopted by the International VLBI Service for Geodesy and Astrometry (IVS) to reduce these systematic errors. However, the model parametrizes the SPV by a linear substitute function and considers only deformations acting rotationally symmetrically. The aim of this investigation is to derive the signal path variations of a legacy radio telescope and a modern broadband VGOS-specified radio telescope and to study the effect of nonrotationally symmetric deformation patterns. For that purpose, SPVs are obtained from a nonlinear spatial ray tracing approach. For the first time, a tilt and a displacement of the subreflector perpendicular to the optical axis of the feed unit is taken into account. The results prove the commonly used VLBI delay model as a suitable first-order delay model to reduce gravity-induced deformations.
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基于射线追踪的超大规模射电望远镜引力变形补偿延迟模型
超长基线干涉测量(VLBI)的精度和可靠性取决于几个因素。除了制造误差和气象影响外,超大规模射电望远镜接收单元的重力变形是影响超大规模射电望远镜产品的重要误差源,并得到了实现的全球大地参考系尺度等结果。重力引起的变形是一种系统误差和屈服信号路径变化。1988年,Clark和Thomsen导出了VLBI延迟模型,该模型被国际VLBI服务机构(International VLBI Service for Geodesy and Astrometry, IVS)采用,以减少这些系统误差。然而,该模型通过一个线性替代函数来参数化SPV,并且只考虑旋转对称作用的变形。本研究的目的是推导传统射电望远镜和现代宽带vgos专用射电望远镜的信号路径变化,并研究非旋转对称变形模式的影响。为此,spv是通过非线性空间射线追踪方法获得的。第一次考虑了垂直于进给装置光轴的副反射器的倾斜和位移。结果表明,常用的VLBI延迟模型是一阶延迟模型,可以有效地减小重力引起的变形。
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来源期刊
Journal of Geodetic Science
Journal of Geodetic Science REMOTE SENSING-
CiteScore
1.90
自引率
7.70%
发文量
3
审稿时长
14 weeks
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