Royal Radar Establishment

"RRE" redirects here. RRE may also refer to HIV Rev response element.

The name Royal Radar Establishment was given to the existing Radar Research Establishment following a visit by Queen Elizabeth II in 1957. Both names were abbreviated to RRE. The establishment had been formed, under its first name, in 1953 by merging the Telecommunications Research Establishment (TRE) and the Radar Research and Development Establishment (RRDE). These had worked on airborne and ground based radar, respectively.[1][2] RRE was located in Malvern, Worcestershire, where both TRE and RRDE had been housed at different sites. The earlier research and development work of TRE and RRDE on radar, solid state physics, electronics, and computer hardware and software was continued in the merged establishment, and the overall scope was extended to include cryogenics and other topics. Infrared detection for guided missiles and heat sensing devices was a major defence application.

Administrative history

The earlier radar research organization B.R.S. (Bawdsey Research Station) was on the east coast of England, about 10 miles north east of Felixstowe. It moved to Dundee in Scotland, at the outbreak of World War II, and changed its name to Air Ministry Research Establishment (A.M.R.E.). In May 1940, the organization moved to Worth Matravers, near Swanage in Dorset, on the south coast of England. The organization was renamed again, as Air Ministry Telecommunications Research Establishment. In May 1942, TRE moved to Malvern. The Radar Research and Development Establishment (RRDE) had split off earlier, and was moved to Malvern at about the same time. TRE and the history of radar are discussed in separate articles.

TRE was part of the Ministry of Supply and, when it was formed, so was RRE. In 1959, control passed to the Ministry of Aviation. When this was abolished in 1967, control passed to the Ministry of Technology, then to the Ministry of Aviation Supply, in 1970, and to the Ministry of Defence in 1971. In 1976 RRE merged with the Signals Research and Development Establishment to form the Royal Signals and Radar Establishment (RSRE), which became part of the Defence Research Agency (DRA) in 1991. Later (1995), DRA was absorbed into DERA, the Defence Evaluation and Research Agency. DERA split on 2 June 2001 into two parts, a government body called Dstl (Defence Science and Technology Laboratory) and a company destined for privatisation, which became QinetiQ.

The technical departments of RRE were grouped, initially, into six Divisions: airborne radar, ground radar, guided weapons, basic techniques, physics, and engineering. The organization and personnel are described further, in a collection of linked web sites.[3]

W. J. Richards, CBE, was Director of TRE at the time of the merger and continued as Director of RRE. W.H. Penley, Head of Guided Missiles, took over for a year in 1961. Then George Macfarlane (after postings outside RRE) became Director in 1962.[1]

The Physics Division – some of the staff and their work

At the time of the name change to Radar Research Establishment in 1953, the senior staff included:

Other members of the Physics Division who made significant contributions to several fields of endeavour include:

In 1956, R.A. Smith presented a comprehensive account of the contributions of RRE to physics to the Royal Society.[2]

Radar, Guided weapons and Engineering Divisions

Gloster Meteor NF.11 fitted with modified radar nose during trials work when allocated to the RRE during 1976.

Although less conspicuous among academic scientists, these divisions were major players in the defence community, both in policy decision making and as an interface with industry. Development and production contracts brought staff of several companies on site, and extramural contracts strengthened ties with industry still further. "in radar alone: Plessey and Decca for aerials and waveguides, Plessey, Hilger & Watts,[43] Clarke Chapman and Curran for millimetre-wave radar, and Mullard for precision bombing and radar reconnaissance".[1] On returning to RRE as Director in 1962, George Macfarlane reorganized the technical departments into: Military and Civil Systems (comprising Ground Radar and Air Traffic Control, Guided Weapons and Airborne Radar groups), Physics and Electronics (comprising Physics and Electronic Groups) and Engineering. "Despite the policy shift away from fighters ... to guided weapons for UK air defence, ... RRE continued to argue for strike aircraft and kept up the necessary radar research programs."[1]

Senior staff, of the divisions at various times included

More than 50 books were written by members of the establishment under its successive names. Details are included in the list of references below, and in the TRE article. Many more were in series that members of the staff edited.

In 1968, the Minister of Supply assured a member of parliament that the results of research at RRE on infra-red detectors would be made available to British industry.[45]

External links

References

  1. 1 2 3 4 Robert Bud and Philip Gummett, Cold war, hot science: applied research in Britain's defence laboratories, NMSI Trading Ltd. Science Museum, London, 2002.
  2. 1 2 3 R.A. Smith, Physics at the Radar Research Establishment, Malvern, Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences Vol. 235, No. 1200 (Apr. 10, 1956), pp. 1-10.
  3. The Penley Archives
  4. 1 2 3 4 S.D. Smith, Robert Allan Smith, Biographical Memoirs of Fellows of the Royal Society, vol.28, 479-504, 1982.
  5. R.A. Smith, Radio aids to navigation, Cambridge University Press, 1947.
  6. R.A. Smith, Aerials for metre and decimetre wavelengths, Cambridge University Press, 1949.
  7. R.A. Smith, The physical principles of thermodynamics; a treatise for students of theoretical and experimental physics, Chapman & Hall, London, 1952.
  8. 1 2 R.A. Smith, F.E. Jones, and R.P. Chasmar, The detection and measurement of infra-red radiation, Clarendon Press, Oxford, 1968.
  9. R.A. Smith, Semiconductors, Cambridge University Press, Cambridge, 1978.
  10. R.A. Smith, Wave mechanics of crystalline solids, Chapman and Hall, 1961, 1963 and 1969.
  11. R.A. Smith (ed.), Very high resolution spectroscopy, Academic Press, New York, 1976. ISBN 0-12-651650-2.
  12. Sir George Macfarlane: Talented technologist who made invaluable contributions in wartime and as a postwar public servant. Times on-line obituaries.
  13. W H Penley (30 July 2007). "Obituary: Sir George Macfarlane". The Guardian. Retrieved 23 July 2013.
  14. R. Loudon and E. G. S. Paige, Alan Frank Gibson. 30 May 1923-27 March 1988, Biographical Memoirs of Fellows of the Royal Society, Vol. 37, (Nov., 1991), pp. 221-244
  15. M. Key, Adventures in laser produced plasma research, UCRL-book-218707, Lawrence Livermore National Laboratory, Feb. 7, 2006.
  16. E. P. Raynes, Paige, Edward George Sydney (Ted) (1930–2004), Oxford Dictionary of National Biography.
  17. Ernst Sondheimer, Professor Leo Pincherle (obituary), Nature, vol. 266, part 5998, page 202, 1977.
  18. 1 2 D.G. Bell, D.M. Hum, L. Pincherle, D.W. Sciama and P.M. Woodward, The electronic band structure of PbS, Proceedings of the Royal Society, A217, (1128) 71-91, 1953.
  19. L. Pincherle, Electronic energy bands in solids, Macdonald, London, 1971.
  20. L. Pincherle, Worked problems in heat, thermodynamics, and kinetic theory for physics students, Pergamon Press, Oxford, 1966.
  21. Derek J. Smith, Short Term Memory Subtypes in Computing and Artificial Intelligence, 2002. pages 79 and 104
  22. Kevin Moore, The History of Flight-Sim
  23. J. M. Rolfe and K. J. Staples, Flight Simulation, Cambridge University Press, 1986, ISBN 0-521-35751-9.
  24. 1 2 David J. Clark, Enclosing the Field from ‘Mechanisation of Thought Processes’ to ‘Autonomics’, Ph.D. thesis University of Warwick, 2002. pages 103 to 110.
  25. A. M. Uttley, Methods of simulating the behaviour of granule cells in hippocampus based on informon theory, Journal of Theoretical Biology, 69 (3) 391-399, 1977.
  26. Woodward, Philip (1953) Probability and Information Theory, with Applications to Radar McGraw-Hill, New York; Pergamon Press, London, ISBN 0-89006-103-3, EAN: 9780890061039.
  27. Malvern Gazette Retrieved 6 July 2009
  28. Woodward, P.M. (1970). Official Definition of CORAL 66. HMSO. pp. vii+58. ISBN 0-11-470221-7..
  29. M. P. Barnett, The evaluation of molecular integrals by the zeta--function method, in Methods in computational physics, vol. 2, Quantum Mechanics, ed. B. Alder, S. Fernbach and M. Rotenberg, 95--153, Academic Press, New York, 1963.
  30. Michael P. Barnett, Computer typesetting, experiments and prospects, 245p, MIT Press, Cambridge, Mass, 1965.
  31. D.F. Manzer and M.P. Barnett, Analysis by Simulation: Programming techniques for a High-Speed Digital Computer, in Arthur Maas et al, Design of Water Resource Systems, pp. 324--390, Harvard University Press, Cambridge, MA, 1962.
  32. M. P. Barnett and S. J. Barnett, Animated algorithms --- a self-teaching course in data structures and fundamental algorithms, McGraw-Hill, New York, 1986.
  33. P.N. Butcher, N.H. March, and M.P. Tosi (eds.), Crystalline semiconducting materials and devices, Plenum Press, New York, 1986. ISBN 0-306-42154-2
  34. P.N. Butcher and D. Cotter, The elements of nonlinear optics, Cambridge University Press, Cambridge, 1990. ISBN 0-521-34183-3
  35. P.N. Butcher, N.H. March, and M.P. Tosi (eds.), Physics of low-dimensional semiconductor structures, Plenum Press, New York, 1993. ISBN 0-306-44170-5.
  36. P.N. Butcher and Yu Lu (eds.), Superconductivity : from basic physics to the latest developments, International Centre for Theoretical Physics, Trieste, Italy 1992, World Scientific, Singapore, 1995. ISBN 981-02-2456-7.
  37. 1 2 3 Rank Prize
  38. Max Born, Roger John Blin-Stoyle, J. M. Radcliffe, Atomic physics, 8th ed. Blackie, Glasgow, 1969; reprinted Dover Press, 1989.
  39. D.W. Sciama, Modern cosmology, Cambridge University Press, Cambridge, 1971.
  40. D.W. Sciama, Modern cosmology and the dark matter problem, Cambridge University Press, Cambridge, 1993.
  41. George W. Gray (January 1998). "Reminiscences from a life with liquid crystals". Liquid Crystals (Taylor & Francis) 24 (1). doi:10.1080/026782998207523. Retrieved 17 May 2013.
  42. Amalgamation of Instrument Makers : Hilger and Watts, Ltd, Nature, 161, 345, 1948.
  43. Dr. W.H. (Bill) Penley, Penley Radar Archives.
  44. Written answer to question concerning research at RRE, .

Coordinates: 52°06′00″N 2°18′58″W / 52.100°N 2.316°W / 52.100; -2.316

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