In May 2024, gravitational deformation measurements were performed at the 26 m and 15 m radio telescopes of the South African Radio Astronomy Observatory at Hartebeesthoek (HARTRAO and HART15M) in cooperation of SARAO, TU München and TU Wien. The method of choice was to use a terrestrial laser scanner (TLS) mounted underneath the sub-reflector with a two-axis gimbal hinge to keep the scanner in a vertical position at all telescope tilts. For a full gravitational VLBI delay model, the 26 m HARTRAO telescope with polar mount had to be pointed at about 80 different Hour Angle/Declination positions for the TLS to perform its scans of the main reflector and the sub-reflector. Here, we present the necessary steps of preparation, the measurements themselves, and first results.
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In May 2024, gravitational deformation measurements were performed at the 26 m and 15 m radio telescopes of the South African Radio Astronomy Observatory at Hartebeesthoek (HARTRAO and HART15M) in cooperation of SARAO, TU München and TU Wien. The method of choice was to use a terrestrial laser scanner (TLS) mounted underneath the sub-reflector with a two-axis gimbal hinge to keep the scanner in a vertical position at all telescope tilts. For a full gravitational VLBI delay model, the 26 m HARTRA...
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