Nançay radio telescope

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Nançay Radio Telescope
Nancay radiotelescope miroir primaire.jpg
Nançay radio telescope's primary mirror
Location(s) Nançay, France Edit this at Wikidata
Coordinates 47°22′15″N 2°11′50″E / 47.3708°N 2.1972°E / 47.3708; 2.1972Coordinates: 47°22′15″N 2°11′50″E / 47.3708°N 2.1972°E / 47.3708; 2.1972 Edit this at Wikidata
Altitude 131 m (430 ft) Edit this at Wikidata
Wavelength 9, 18, 21 cm (3.3, 1.7, 1.4 GHz)
Built 1961–1965 (1961–1965) Edit this at Wikidata
Telescope style radio telescope Edit this on Wikidata
Collecting area 8,000 m2 (86,000 sq ft) Edit this at Wikidata
Mounting Kraus-type Edit this at Wikidata
Nançay radio telescope is located in France
Nançay radio telescope
Location of Nançay radio telescope

The Nançay decimetric radio telescope (Le radiotélescope décimétrique de Nançay (NRT)[1]) is located in the small commune of Nançay, two hours' drive south of Paris, France. The radio telescope saw first light in 1965, after an inauguration by the then French president, Charles de Gaulle. It is one of the largest radio telescopes in the world.

Layout of the Nançay Radio Telescope.

The NRT is a transit instrument of the unusual Kraus-type design, with two mirrors. The flat, tilting primary mirror consists of ten panels, each 20 m long and 40 m (131 ft) high; it reflects radio waves towards the fixed secondary mirror 460 m to the south. The secondary mirror is shaped as a section of a sphere with a radius of 560 m: (1837 ft) it focuses the radio waves towards a mobile focal carriage 280 m to the north that contains antennas cooled by liquid helium to 20 K (−253.2 °C) and other receiving equipment. Both mirrors are covered with a metal mesh with square holes 12.5 mm on a side and a surface that is accurate to about 5 mm. The primary mirror tilts north-south to select any objects along the meridian, while the focal carriage moves east-west along a curved railroad track to follow objects across the sky. The NRT is capable of observing objects with a declination greater than −39°. Objects near the celestial equator can only be tracked for about an hour, but objects nearer the zenith can be tracked for longer. Since the mirrors of the telescope are much wider than they are high, its response function is highly elongated, being approximately 5 times wider in declination than in Right Ascension. Observations are typically undertaken at frequencies of 1,400 MHz (equivalent to a wavelength of 21 cm), 1,660 MHz (18 cm) and 3,330 MHz (9 cm).

The central fifth of the NRT was constructed in 1961 as a proof of concept. The remainder was completed in 1964, and officially opened in 1965. Scientific observations started in 1967.

The Kraus-type design, named after Dr. John D. Kraus (1910–2004), was first used at Ohio State University's Big Ear telescope.

The Nançay Radioastronomy Facility includes several other operating radio telescopes:

  • the Radio Heliograph, a T-shaped array (1.6 km by 1.25 km) composed of 47 antennas operating between frequencies of 150 and 450 MHz;
  • the Decametric Array composed of 144 spiral antenna operating between wavelengths of 3 m and 30 m;
  • the Radio Frequency Monitoring Antenna, mounted on a tower 22 metres above the ground, and observing at regular intervals each day on two frequency bands between 100 and 500 MHz and between 1 and 4 GHz.
  • the CODALEMA project, dedicated to the study of cosmic rays;
  • an international LOFAR station (named FR606), along with NenuFAR - a LOFAR Super Station with an extended low frequency range, capable of also operating in standalone mode;
  • one of the two experimental EMBRACE (Electronic MultiBeam Radio Astronomy ConcEpt) phased array telescopes, part of the Research and Development program for the Phase 2 of the Square Kilometre Array (SKA) project.[2]


  1. ^ [1]
  2. ^ "EMBRACE". ASTRON. Retrieved 2015-05-17. 

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