Parkes Observatory
Radio telescope
The Parkes Radiothermal Telescope, completed in 1961, was the brainchild of E.G. (Taffy) Bowen, chief of the CSIRO’s Radiophysics Laboratory. During the Second World War, he had worked on radar development in the US and had made some powerful friends in the scientific community. Calling on this old boy network, he persuaded two philanthropic organisations, the Carnegie Corporation and the Rockefeller Foundation to fund half the cost of the telescope. It was this recognition and key financial support from the US that persuaded then Prime Minister Robert Menzies to agree to fund the rest of the project.
The primary observing instrument is the 64-metre movable dish telescope, second largest in the Southern Hemisphere, and one of the first large movable dishes in the world (DSS-43 at Tidbinbilla was extended from 64 m to 70 m in 1987, surpassing Parkes). After its completion it has operated almost continuously to the present day. The dish surface was physically upgraded by adding smooth metal plates to the central part to provide focusing capability for centimetre and millimetre length microwaves. The outer part of the dish remains a fine metal mesh, creating its distinctive two-tone appearance.
The 18m dish antenna in the foreground of the photo was transferred from the Fleurs Observatory (Mills Cross) in 1963. It was used as a transmit uplink antenna in the Apollo program and has been abandoned since the early 1980s.
The telescope has an altazimuth mount. It is guided by a small mock-telescope placed within the structure at the same rotational axes as the dish, but with an equatorial mount. The two are dynamically locked when tracking an astronomical object by a laser guiding system. This primary-secondary approach was designed by Barnes Wallis.
The success of the Parkes telescope led NASA to copy the basic design in their Deep Space Network, with matching 64 m dishes built at Goldstone, Madrid and Tidbinbilla.
The receiving cabin is located at the focus of the parabolic dish, supported by three struts 27 metres above the dish. The cabin contains multiple radio and microwave detectors, which can be switched into the focus beam for different science observations.
The observatory is a part of the Australia Telescope National Facility network of radio telescopes. The 64m dish is frequently operated together with the Australia Telescope Compact Array at Narrabri and a single dish at Mopra, to form a very long baseline interferometry array.
During the Apollo missions to the moon, the Parkes Observatory was used to relay communication and telemetry signals to NASA, providing coverage for when the moon was on the Australian side of the Earth.
The big dish
The observatory has remained involved in tracking numerous space missions up to the present day, including the Mariner 2, Mariner 4, Voyager, Giotto, Galileo and Cassini-Huygens probes. It is also a major world centre for research into pulsars, with more than half of those currently known today discovered at the Parkes Observatory. Between 1997 and 2002 it conducted the HIPASS neutral hydrogen survey, the largest blind survey for galaxies in the neutral hydrogen line to date.
The observatory and telescope were featured in the 2000 film The Dish, a fictionalised account of the observatory’s involvement with the Apollo 11 moon landing.
Apollo 11 broadcast
When Buzz Aldrin switched on the TV camera on the Lunar Module, three tracking antennas received the signals simultaneously. They were the 64 metre Goldstone antenna in California, the 26 metre antenna at Honeysuckle Creek near Canberra in Australia, and the 64 metre dish at Parkes. In the first few minutes of the broadcast, NASA alternated between the signals being received from its two stations at Goldstone and Honeysuckle Creek, searching for the best quality picture. A little under nine minutes into the broadcast, the TV was switched to the Parkes signal. The quality of the TV pictures from Parkes was so superior that NASA stayed with Parkes as the source of the TV for the remainder of the 2.5 hour broadcast. For a comprehensive explanation of the TV reception of the Apollo 11 broadcast, see “The Television Broadcasts” from the report “On Eagles Wings”.
See also
Apollo 11 missing tapes
References
^ 40 years of The Dish – ABC Science Online
^ Canberra Deep Space Communication Complex – exploring the Solar System and beyond
^ On Eagle’s Wings: The Story of the Parkes Apollo 11 Support
External links
Media related to Parkes Observatory at Wikimedia Commons
Parkes Observatory Home Page
ABC Science, 2001: 40 years of the Dish
View the dish in action
The Dish at the Internet Movie Database
Observation of Mariner IV with the Parkes 210-ft Radio Telescope
The sound of the Universe singing – ABC Radio National radio documentary on the story of ‘the dish’ since its construction
v d e
Radio astronomy
Main articles
Astronomical interferometer / History Very Long Baseline Interferometry Radio telescope Radio window Astronomical radio source
Notable radio telescopes
List of radio telescopes
Single dish
Arecibo Observatory (Puerto Rico) Effelsberg Telescope (Germany) RT-70 (USSRRussia) Green Bank Telescope (West Virginia, USA) Lovell Telescope (UK) Parkes Observatory (Australia)
Interferometers
Australia Telescope Compact Array (Narrabri, Australia) Combined Array for Research in Millimeter-wave Astronomy (Cedar Flat, CA) European VLBI Network (Europe) Giant Metrewave Radio Telescope (India) MERLIN (UK) Molonglo Observatory Synthesis Telescope (Canberra, Australia) One-Mile Telescope (UK) Very Large Array (New Mexico, USA) Very Long Baseline Array (USA) Westerbork Synthesis Radio Telescope (Netherlands)
Proposed/in-progress
telescopes
Five hundred meter Aperture Spherical Telescope (China) Allen Telescope Array (California, USA) Atacama Large Millimeter Array (Chile) LOFAR (Netherlands) Murchison Widefield Array (Australia) PaST (China) Square Kilometre Array (TBD)
Observatories
Algonquin Radio Observatory (CAN) Haystack Observatory (US) Jodrell Bank Observatory (UK) Mullard Radio Astronomy Observatory (UK) National Radio Astronomy Observatory (USA) Special Astrophysical Observatory of the Russian Academy of Science (Russia)
People
Arthur Covington Antony Hewish Karl Guthe Jansky Bernard Lovell Jan Oort Groete Reber Martin Ryle
Related articles
Cosmic microwave background radiation SETI Interferometry Radio propagation Aperture synthesis Wow! signal
Other types of astronomical observation: Optical astronomy Submillimetre astronomy Infrared astronomy High-energy astronomy
See also: Radio telescope category list
Categories: Radio telescopes | Astronomical observatories in Australia | Rockefeller Foundation | Central West, New South WalesHidden categories: Articles needing additional references from October 2009 | All articles needing additional references
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