Sir Martin Ryle (27 September 1918 – 14 October 1984) was an English radio astronomer who developed revolutionary radio telescope systems (see e.g. aperture synthesis) and used them for accurate location and imaging of weak radio sources. In 1946 Ryle and Derek Vonberg were the first people to publish interferometric astronomical measurements at radio wavelengths. With improved equipment, Ryle observed the most distant known galaxies in the universe at that time. He was the first Professor of Radio Astronomy in the University of Cambridge and founding director of the Mullard Radio Astronomy Observatory. He was the twelfth Astronomer Royal from 1972 to 1982. Ryle and Antony Hewish shared the Nobel Prize for Physics in 1974, the first Nobel prize awarded in recognition of astronomical research. In the 1970s, Ryle turned the greater part of his attention from astronomy to social and political issues which he considered to be more urgent. He was also an enthusiastic amateur radio operator (callsign G3CY).

Education and early life

Martin Ryle was born in Brighton, England, the son of Professor John Alfred Ryle and Miriam (née Scully) Ryle. He was the nephew of Oxford University Professor of Philosophy Gilbert Ryle. Martin had four siblings, and at first was educated at home by a governess. After studying at Bradfield College, Ryle studied physics at Christ Church, Oxford. In 1939, Ryle worked with the Telecommunications Research Establishment (TRE) on the design of antennas for airborne radar equipment during World War II. After the war, he received a fellowship at the Cavendish Laboratory. His interest quickly shifted to other areas, however, and he decided early on that the Cambridge group should develop new observing techniques. As a result, Ryle was the driving force in the creation and improvement of astronomical interferometry and aperture synthesis, which paved the way for massive upgrades in the quality of radio astronomical data. In 1946 Ryle built the first multi-element astronomical radio interferometer.

Ryle guided the Cambridge radio astronomy group in the production of several important radio source catalogues. One such catalogue, the Third Cambridge Catalogue of Radio Sources (3C) in 1959 helped lead to the discovery of the first quasi-stellar object (quasar).

While serving as university lecturer in physics at Cambridge from 1948 to 1959, Ryle became director of the Mullard Radio Astronomy Observatory in 1957 and professor of radio astronomy in 1959. He was elected a Fellow of the Royal Society (FRS) in 1952, was knighted in 1966 (p 519 of In an interview in 1982 he said "At times one feels that one should almost have a car sticker saying 'Stop Science Now' because we're getting cleverer and cleverer, but we do not increase the wisdom to go with it."

He was also intense and volatile, the latter characteristic being associated with his mother. His main themes were:

  • Warning the world of the horrific dangers of nuclear armaments, notably in his pamphlet Towards the Nuclear Holocaust.
  • Criticism of nuclear power, as in Is there a case for nuclear power?
  • Research and promotion of alternative energy and energy efficiency, as in Short-term Storage and Wind Power Availability.
  • Calling for the responsible use of science and technology. "...we should strive to see how the vast resources now diverted towards the destruction of life are turned instead to the solution of the problems which both rich - but especially the poor - countries of the world now face." The letter ends with "Our cleverness has grown prodigiously – but not our wisdom."

Honours and awards

Ryle was awarded numerous prizes and honours including:

  • Elected a Fellow of the Royal Society (FRS) in 1952
  • Fernand Holweck Medal and Prize (1965)
  • Henry Draper Medal of the National Academy of Sciences (1965)
  • Albert A. Michelson Medal of the Franklin Institute (1971)
  • Royal Medal (1973)
  • Bruce Medal (1974)
  • Nobel Prize in Physics (1974)
  • Ryle Telescope at Mullard Radio Astronomy Observatory
  • In 1965 Ryle co-delivered the Royal Institution Christmas Lecture on Exploration of the Universe.

Personal life

In their early years Ryle and his elder brother received lessons at home in carpentry his post-war radio-telescope building

In his youth, Ryle became an amateur radio operator. While still at school (Bradfield College) he built his own transmitter and obtained a Post Office licence to operate it, Lady Rowena Ryle died in 2013.

References

  • including the Nobel Lecture, 12 December 1974 Radio Telescopes of Large Resolving Power