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Goldstone Deep Space Communications Complex

Coordinates: 35°25′36″N 116°53′24″W / 35.426666666667°N 116.89°W / 35.426666666667; -116.89
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Goldstone Deep Space Communications Complex
The 34m antennas at Goldstone
Alternative namesGoldstone Observatory Edit this at Wikidata
Organization
LocationFort Irwin, California,[1] California
Coordinates35°25′36″N 116°53′24″W / 35.426666666667°N 116.89°W / 35.426666666667; -116.89
Altitude2,950 ft (900 m) Edit this at Wikidata
Established1958 Edit this on Wikidata
Websitewww.gdscc.nasa.gov Edit this at Wikidata
Telescopes
  • DSS 14
  • DSS 23
  • DSS 24
  • DSS 25
  • DSS 26 Edit this on Wikidata
Goldstone Deep Space Communications Complex is located in the United States
Goldstone Deep Space Communications Complex
Location of Goldstone Deep Space Communications Complex
  Related media on Commons
Pioneer Deep Space Station
Goldstone Deep Space Communications Complex is located in California
Goldstone Deep Space Communications Complex
LocationGoldstone Deep Space Communications Complex, Fort Irwin, California, United States
Coordinates35°23′21.41″N 116°51′22.31″W / 35.3892806°N 116.8561972°W / 35.3892806; -116.8561972
Area32,411 Acres[1]
Built1958 (1958)
ArchitectU.S. Army
NRHP reference No.85002813
Significant dates
Added to NRHPOctober 3, 1985[2]
Designated NHLOctober 3, 1985[3]
Goldstone Observatory in 1963

The Goldstone Deep Space Communications Complex (GDSCC), commonly called the Goldstone Observatory, is a satellite ground station located in Fort Irwin[1] in the U.S. state of California. Operated by NASA's Jet Propulsion Laboratory (JPL), its main purpose is to track and communicate with interplanetary space missions. It is named after Goldstone, California, a nearby gold-mining ghost town.[4]

The station is one of three[5] satellite communication stations in the NASA Space Communications and Navigation (SCaN) program’s Deep Space Network (DSN), whose mission is to provide the vital two-way communications link that tracks and controls interplanetary spacecraft and receives the images and scientific information they collect. The others are the Madrid Deep Space Communications Complex in Spain and the Canberra Deep Space Communication Complex in Australia. These three stations are located at separations of approximately 120° longitude so that as the Earth rotates a spacecraft will always be in sight of at least one station.[6]

The complex includes the Pioneer Deep Space Station (aka DSS 11), which is a U.S. National Historic Landmark.

Antennas

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Five large parabolic (dish) antennas are located at the Goldstone site to handle the workload, since at any given time the DSN is responsible for maintaining communication with up to 30 spacecraft. The antennas function similarly to a home satellite dish. However, since the spacecraft they communicate with are much farther away than the communication satellites which home satellite dishes use, the signals received are much weaker, requiring a larger aperture antenna to gather enough radio energy to make them intelligible. The largest, a 70-meter (230 ft) Cassegrain antenna, is used for communication with space missions to the outer planets, such as the Voyager spacecraft, which, at 21.5 billion kilometers, is the most distant manmade object from Earth. The radio frequencies used for spacecraft communication are in the microwave part of the radio spectrum; S band (2.29–2.30 GHz), X band (8.40–8.50 GHz) and Ka band (31.8–32.3 GHz). In addition to receiving radio signals from the spacecraft (downlink signals), the antennas also transmit commands to the spacecraft (uplink signals) with high power radio transmitters (80 kW)[7] powered by klystron tubes.

A major goal in the design of the station is to reduce interference with the weak incoming downlink radio signals by natural and manmade radio noise. The remote Mojave Desert location was chosen because it is far from manmade sources of radio noise such as motor vehicles. The RF front ends of the radio receivers at the dishes use ruby masers, consisting of a bar of synthetic ruby cooled by liquid helium to 4.5 K to minimize the noise introduced by the electronics.

When not needed for spacecraft communication, the Goldstone antennas are used as sensitive radio telescopes for astronomical research, such as mapping quasars and other celestial radio sources; radar mapping planets, the Moon, comets and asteroids; spotting comets and asteroids with the potential to strike Earth; and the search for ultra-high energy neutrino interactions in the Moon by using large-aperture radio antennas.[8]

Antennas at Goldstone Deep Space Communications Complex
Name Diameter Description
DSS 12: "Echo" 34m Decommissioned in 2012.
DSS 13: "Venus" 34m Beam waveguide antenna (BWG) on altazimuth mount, located in Venus, California. ~910 m2 aperture.
DSS 14: "Mars" 70m Cassegrain reflector on Alt/Az mount. ~3850 m2 aperture.
DSS 15: "Uranus" 34m "High Efficiency" reflector on Alt/Az mount
DSS 24, 25, 26: "Apollo" 34 m BWG reflector on Alt/Az mount
DSS 27, 28: "Gemini" 34 m BWG reflector on "High Speed" Alt/Az mount

History

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The Goldstone complex was created in 1958 by the JPL to support the Pioneer program of deep space exploration probes. Its location was determined by two criteria: a bowl-shaped environment was needed, and it needed to be distant from terrestrial sources of radio interference. This site, on the grounds of Fort Irwin in the Mojave Desert, was found to meet the criteria. Construction of the first radio telescope, DSS 11 or the Pioneer Deep Space Station, was begun by the United States Army and taken over by NASA after its creation. It is a 26-metre (85 ft) parabolic Cassegrain antenna capable of receiving signals in the 1 to 3 GHz range.[9] It was taken out of service in 1981, having been technologically bypassed by later telescopes. It was recognized as a National Historic Landmark in 1985 for its pioneering role in deep space exploration.[10]

"Goldstone has the bird"

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It is commonly believed that the first American satellite, Explorer 1, was confirmed to be in orbit by the use of the phrase "Goldstone has the bird".[11] However, Goldstone was not in operation at the time of Explorer 1, and like many oft-repeated quotations it is incorrect. Others claim that the actual phrase was "Gold has it!",[12] incorrectly identifying "Gold" as a temporary tracking station at Earthquake Valley, east of Julian, California. In fact, Gold Station was located at the Air Force Missile Test Center (AFMTC) in Florida and the temporary tracking station at Earthquake Valley was Red Station.[13] Probably this detection of the Explorer 1 signal was actually made at the Minitrack station at Brown Field, a US Navy airfield near San Diego. This station was later moved to Goldstone, accounting for the error.

Complex tours

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The Goldstone Deep Space Communications Complex has temporarily suspended tours for the public. However, there is a Visitor Center located in Harvey House, 681 North First Avenue, Barstow, CA 92311. Operating hours are Monday, Wednesday and Fridays from 9AM - 3PM. There is no entry fee and no need to make reservations to stop by the Visitor Center.[14]

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The 70m dish also known as Mars or DSS14 is featured in the opening sequences of the 1968 film Ice Station Zebra.

The Goldstone Facility was prominently featured in Part 1 of The Incredible Hulk (TV Series) episode, "Prometheus".

A Boy and His Dog (1975 film) used the facility for the industrial looking entrance sequence to the film's world of "Down Under" according to the director's commentary (not without difficulty - the filming crew had a hard time getting access).

See also

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References

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  1. ^ a b c "Draft Legislative Environmental Impact Statement for Military Training and Public Land Withdrawal Extension (confirms Goldstone location)" (PDF). U.S. Army. Retrieved December 28, 2022.
  2. ^ "National Register Information System". National Register of Historic Places. National Park Service. January 23, 2007.
  3. ^ "Apollo Deep Space Station". National Historic Landmark summary listing. National Park Service. Archived from the original on July 1, 2007. Retrieved March 20, 2008.
  4. ^ Goldstone gold mining
  5. ^ GDSCC Overview Archived 2015-07-21 at the Wayback Machine
  6. ^ Latifiyan, Pouya (April 2021). "Space Telecommunications, how?". Take off. 1. Tehran: Civil Aviation Technology College: 15 – via Persian.
  7. ^ Clements, Michael. "The Goldstone Deep Space Communications Complex" (PDF). DSN_Symposium_2-20-14. descanso.jpl.nasa.gov. Retrieved July 6, 2022.
  8. ^ "A Search for Ultra-High Energy Neutrino Interactions in the Moon Using Large-Aperture Radio Antennas". University of California, Los Angeles. Retrieved March 28, 2008.
  9. ^ "NHL nomination for Pioneer Deep Space Station". National Park Service. Retrieved February 1, 2018.
  10. ^ "History of GDSCC". NASA. Retrieved February 1, 2018.
  11. ^ Medaris, John B. (1960). Countdown for Decision. New York, New York: G. P. Putnam & Sons. ISBN 978-1124155661.
  12. ^ The First Explorer Satellites lecture by George H. Luwig, 9 Oct 2004
  13. ^ Juno I: Re-entry Test Vehicles and Explorer Satellites, p.56
  14. ^ "NASA Goldstone Visitor Center – Goldstone Deep Space Communications Complex".
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