Everything about One-mile Telescope totally explained
The 'One-Mile Telescope' at the
Mullard Radio Astronomy Observatory (MRAO) was completed by the
Radio Astronomy Group of
Cambridge University in
1964. It is an array of
radio telescopes (2 fixed and 1 moveable, fully steerable 60-ft-diameter paraboloids operating simultaneously at 1407 and 408 MHz) designed to perform
aperture synthesis interferometry. The telescope was used to produce the
5C catalogue of radio sources. Observations with larger incremental spacings were used to observe individual radio sources with unprecedented sensitivity, angular resolution, and image quality. These surveys required intensive use of inverse
Fourier Transforms, and were made possible by development of a new generation of computers such as the
Titan.
In
1971, Sir
Martin Ryle described why, in the late 1950s, radio astronomers at MRAO decided on the construction of the new One Mile telescope: "Our object was twofold. First we wanted to extend the range of our observations far back in time to the earliest days of the Universe, and this required a large increase in both sensitivity and resolution. With greater resolution we hoped that we might be able to draw radio maps of individual radio sources with sufficient detail to give some indication of the physical processes which brought them into being."
The One-Mile Telescope, was the first to use Earth-rotation
aperture synthesis (described by Ryle as "super-synthesis") and the first to give radio maps with a resolution better than that of the human eye. The telescope was made up of three 120 ton dishes, each of which is 18 m in diameter. Two of the dishes are fixed, while the third can be moved along an 800 m long (half mile) rail track, at speeds of up to 6.4 km/h. There were 60 different stations along the track, which is straight to within 0.9 cm, and whose far end was raised by 5 cm to allow for the curvature of the Earth over its length. The observing frequencies were usually 408 MHz (75 cm; the resolution was 80 arcsec) and 1.4 GHz (21 cm; the resolution was 20 arcsec, three times better than that of the unaided eye).
Over a 20 year career, the telescope was used to map individual objects, and to do several deep field surveys. Though still occasionally used, it's now essentially retired (one of the dishes is occasionally used for undergraduate projects or by
amateur radio astronomers
).
The construction of this telescope and development of the Earth-rotation
aperture synthesis used when operating it contributed to
Martin Ryle and
Antony Hewish receiving the
Nobel Prize for Physics in
1974.
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