Soviet Deep Space Network

The Soviet Deep Space Network is a network of large antennas and communication facilities that supports interplanetary spacecraft missions, and radio and radar astronomy observations for the exploration of the solar system and the universe. It was built to support the space missions of the Soviet Union. Similar networks are run by the USA, China, Europe, Japan, and India.

History

One of two receiver antennas of the North station, used in the early 1960s.
32-metre diameter antenna.

The first Soviet space communications network had 13 stations and was designed to track Earth orbiting satellites, not deep space probes.[1]

Interplanetary missions require larger antennas, more powerful transmitters, and more sensitive receivers, and an effort was started in 1959 to support the planned 1960 launch of the Venera series of missions to Venus and the Mars program of spacecraft to Mars. The selected design consisted of eight 16-meter dishes placed on two hulls of diesel submarines,[2] welded together and laid down on the railway bridge trusses. These trusses were mounted on bearings from battleship gun turrets.[1] Three such antennas were built: the two North stations for receiving, and the south station a few kilometers away for transmitting.

In 1978, these antennas were augmented by the 70-meter antennas at Yevpatoria and Ussuriisk. Construction on a third antenna at Suffa, Uzbekistan was halted with the collapse of the Soviet Union. As of 16 October 2018, the Director of the radio observatory, Gennady Shanin, announced that a two-year "roadmap" for completing construction had been agreed to by Russia and Uzbekistan.[3]

Facilities

The 70 meter antenna at Yevpatoria

There were three main antennas in the Russian Deep Space Network:[4]

Missions

Some of the Soviet space program missions that have communicated by the Soviet DSN include:

References

  1. Don P. Mitchel. Soviet Telemetry Systems. Deep-Space Communication Centers.
  2. Wesley T. Huntress, JR. and Mikhail Ya Marov (2011). Soviet Robots in the Solar System: Mission Technologies and Discoveries. Springer. ISBN 978-1441978974., page 27
  3. "Uzbekistan, Russia to sign Suffa observatory completion plan". Tashkent Times. 16 October 2018. Retrieved 24 November 2019.
  4. Altunin, V. (1993). G.S. Shostak (ed.). Prospects for Using Soviet DSN Antennas for SETI. Third Decennial US-USSR Conference on SETI. ASP Conference Series. 47. p. 37. Bibcode:1993ASPC...47...37A.
  5. I. Molotov (2002). Two-year program to upgrade Bear Lakes RT-64 for EVN membership (PDF). Proceedings of the 6th European VLBI Network Symposium. Archived from the original (PDF) on 2004-01-23.
  6. Molotov, I; Gorshenkov, Y; Dugin, N; et al. "Bear Lakes Radio Astronomy Station". Retrieved 24 November 2019.
  7. "Status and Plans of the Russian Deep Space Network with Emphasis on the VLBI/Delta-DOR Techniques".


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