HartRAO Home > news > Geodetic VLBI Results after 26m Telescope Bearing Replacement 2011-05-28

The HartRAO telescope was the only operational radio telescope in Africa with geodetic VLBI capability. Its abolutely referenced position provided an anchor for the co-located NASA MOBLAS-6 Satellite Laser Ranging System (SLR), Global Navigation Satellite System (GNSS) receivers and DORIS satellite orbit determination system. This made HartRAO a key fiducial station for the International Terrestrial Reference Frame (ITRF), and it had also become the reference point for the survey system of South Africa.

Therefore a critical question was how accurately the repaired telescope had been returned to its original position, in order to continue the position time series without a discontinuity. Major mechanical repairs on some other radio telescopes are known to have shifted their positions and introduced offsets in their data time series.

The first post-repair VLBI was for geodetic purposes, carried out on 2010 August 11. Further geodetic VLBI's have been carried out at typically weekly intervals since then. The results of these are now coming in from the six data processing centres of the International VLBI Service for Astrometry and Geodesy (IVS).

Graphs of the baseline lengths between the HartRAO 26m telescope and representative radio telescopes on other continents are shown below, courtesy of the IVS Analysis Coordinator. The baseline lengths change steadily with time owing to the steady movement of the Earth's tectonic plates, and sometimes abruptly when the position of a telescope is shifted by a nearby earthquake at a boundary between plates. An example of the latter is shown below, a consequence of the magnitude 8.8 earthquake in Chile on 2010 February 27.

The graphs reproduced below and data analyses from all the data centres and show that there has been no need to introduce a discontinuity (or "episodic motion" in geodetic VLBI wording) for the HartRAO 26m telescope position after the repair.