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

Lösler Michael; Eschelbach Cornelia; Greiwe Ansgar; Brechtken Rainer; Plötz Christian; Kronschnabl Gerhard; Neidhardt Alexander

doi:10.1515/jogs-2022-0141

Journal of Geodetic Science (Nov 2022)

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

Lösler Michael,
Eschelbach Cornelia,
Greiwe Ansgar,
Brechtken Rainer,
Plötz Christian,
Kronschnabl Gerhard,
Neidhardt Alexander

Affiliations

Lösler Michael: Laboratory for Industrial Metrology, Faculty 1: Architecture, Civil Engineering, Geomatics, Frankfurt University of Applied Sciences, Nibelungenplatz 1, 60318 Frankfurt am Main, Germany
Eschelbach Cornelia: Laboratory for Industrial Metrology, Faculty 1: Architecture, Civil Engineering, Geomatics, Frankfurt University of Applied Sciences, Nibelungenplatz 1, 60318 Frankfurt am Main, Germany
Greiwe Ansgar: Department of Geodesy, Bochum University of Applied Sciences, Am Hochschulcampus 1, 44801 Bochum, Germany
Brechtken Rainer: Department of Geodesy, Bochum University of Applied Sciences, Am Hochschulcampus 1, 44801 Bochum, Germany
Plötz Christian: Geodetic Observatory Wettzell, G 5: Microwave Techniques, Federal Agency for Cartography and Geodesy, Sackenrieder Straße 25, 93444 Bad Kötzting, Germany
Kronschnabl Gerhard: Geodetic Observatory Wettzell, G 5: Microwave Techniques, Federal Agency for Cartography and Geodesy, Sackenrieder Straße 25, 93444 Bad Kötzting, Germany
Neidhardt Alexander: Department of Aerospace and Geodesy, Technical University of Munich, Geodetic Observatory Wettzell, Sackenrieder Straße 25, 93444 Bad Kötzting, Germany

DOI: https://doi.org/10.1515/jogs-2022-0141
Journal volume & issue: Vol. 12, no. 1
pp. 165 – 184

Abstract

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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.

Published in Journal of Geodetic Science

ISSN: 2081-9943 (Online)
Publisher: De Gruyter
Country of publisher: Poland
LCC subjects: Science: Astronomy: Geodesy
Website: http://www.degruyter.com/view/j/jogs

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