Institute of Physics Michael Faraday Medal and Prize: Difference between revisions
Appearance
Content deleted Content added
Update to 2019 |
|||
Line 41: | Line 41: | ||
== Medalists and Lecturers == |
== Medalists and Lecturers == |
||
===Faraday medalists<ref>{{cite web|url=http://www.iop.org/about/awards/gold/faraday/medallists/page_38448.html|title=Faraday medal recipients|website=Institute of Physics|access-date=4 April 2018}}</ref>=== |
===Faraday medalists<ref>{{cite web|url=http://www.iop.org/about/awards/gold/faraday/medallists/page_38448.html|title=Faraday medal recipients|website=Institute of Physics|access-date=4 April 2018}}</ref>=== |
||
* 2019 [[J. Roy Taylor|Roy Taylor]], "For his extensive, internationally leading contributions to the development of spectrally diverse, ultrafast-laser sources and pioneering fundamental studies of nonlinear fibre optics that have translated to scientific and commercial application.* |
|||
* 2018 [[Jennifer Thomas (physicist)|Jennifer Thomas]], "For her outstanding investigations into the physics of neutrino oscillations, in particular her leadership of the MINOS/MINOS long-baseline neutrino oscillation experiment." |
* 2018 [[Jennifer Thomas (physicist)|Jennifer Thomas]], "For her outstanding investigations into the physics of neutrino oscillations, in particular her leadership of the MINOS/MINOS long-baseline neutrino oscillation experiment." |
||
*2017 [[Jeremy Baumberg]], "For his investigations of many ingenious nanostructures supporting novel and precisely engineered plasmonic phenomena relevant to single molecule and atom dynamics, Raman spectroscopies and metamaterials applications." |
*2017 [[Jeremy Baumberg]], "For his investigations of many ingenious nanostructures supporting novel and precisely engineered plasmonic phenomena relevant to single molecule and atom dynamics, Raman spectroscopies and metamaterials applications." |
Revision as of 16:29, 21 October 2019
Institute of Physics Michael Faraday Medal & Prize | |
---|---|
Description | outstanding contributions to experimental physics |
Sponsored by | Institute of Physics |
Location | London |
Country | United Kingdom |
Presented by | Institute of Physics |
Website | Official website |
The Michael Faraday Medal and Prize is a prize awarded annually by the Institute of Physics in experimental physics, one of the Institute's Gold medals.[1] The award is made "for outstanding and sustained contributions to experimental physics." The medal is gold and accompanied by a prize of £1000 and a certificate.[2]
Historical development
- 1914-1965 Guthrie Lecture initiated to remember Frederick Guthrie,[3] founder of the Physical Society (which merged with the Institute of Physics in 1960).
- 1966-2007 Guthrie Medal and Prize (in response to changed conditions from when the lecture was first established). From 1992, it became one of the Institute's Premier Awards.
- 2008–present Michael Faraday Medal and Prize
Medalists and Lecturers
Faraday medalists[4]
- 2019 Roy Taylor, "For his extensive, internationally leading contributions to the development of spectrally diverse, ultrafast-laser sources and pioneering fundamental studies of nonlinear fibre optics that have translated to scientific and commercial application.*
- 2018 Jennifer Thomas, "For her outstanding investigations into the physics of neutrino oscillations, in particular her leadership of the MINOS/MINOS long-baseline neutrino oscillation experiment."
- 2017 Jeremy Baumberg, "For his investigations of many ingenious nanostructures supporting novel and precisely engineered plasmonic phenomena relevant to single molecule and atom dynamics, Raman spectroscopies and metamaterials applications."
- 2016 Jenny Nelson," For her pioneering advances in the science of nanostructured and molecular semiconductor materials "
- 2015 Henning Sirringhaus, "For transforming our knowledge of charge transport phenomena in organic semiconductors as well as our ability to exploit them"
- 2014 Alexander Giles Davies and Edmund Linfield, "For their outstanding and sustained contributions to the physics and technology of the far-infrared (terahertz) frequency region of the electromagnetic spectrum"
- 2013 Edward Hinds, "For his innovative and seminal experimental investigations into ultra-cold atoms and molecules"
- 2012 Roy Sambles, "For his pioneering research in experimental condensed matter physics"
- 2011 Alan Andrew Watson, "For his outstanding leadership within the Pierre Auger Observatory, and the insights he has provided to the origin and nature of ultra high energy cosmic rays"
- 2010 Athene Donald, "For her many highly original studies of the structures and behaviour of polymers both synthetic and natural"
- 2009 Donal Bradley, "For his pioneering work in the field of 'plastic electronics'"
- 2008 Roger Cowley, "For pioneering work in the development and application of neutron and X-ray scattering techniques to the physics of a wide range of important solid and liquid-state systems"
Guthrie medalists
- 2007 Gilbert Lonzarich, "for his experimental and theoretical contributions to condensed matter physics"
- 2006 Marshall Stoneham, "for his wide-ranging theoretical work on defects in solids"
- 2005 William Frank Vinen, "for his outstanding contributions to superfluids and superconductors"
- 2004 Henry Hall
- 2003 Michael Springford
- 2002 Penelope Jane Brown
- 2001 Laurence Eaves
- 2000 Lawrence Michael Brown
- 1999 George Bacon
- 1998 Derek Charles Robinson
- 1997 John Evan Baldwin
- 1996 Edward Roy Pike
- 1995 John Enderby
- 1994 Philip George Burke
- 1993 Tom Kibble
- 1992 Archibald Howie
- 1991 Dennis William Sciama
- 1990 Roger James Elliott
- 1989 Martin J. Rees
- 1988 Alan Lidiard
- 1987 Samuel Frederick Edwards
- 1986 Denys Haigh Wilkinson
- 1985 Michael Pepper
- 1984 Michael John Seaton
- 1983 Jeffrey Goldstone
- 1982 Frederick Charles Frank
- 1981 John Clive Ward
- 1980 Michael Ellis Fisher
- 1979 Donald Hill Perkins
- 1978 Philip Warren Anderson
- 1977 Alan Howard Cottrell
- 1976 Abdus Salam
- 1975 David Tabor
- 1974 Rudolf Ludwig Mössbauer
- 1973 Hermann Bondi
- 1972 Brian David Josephson
- 1971 John Ashworth Ratcliffe
- 1970 Alfred Brian Pippard
- 1969 Cecil Frank Powell
- 1968 Rudolf Ernst Peierls
- 1967 James Chadwick
- 1966 William Cochran
Guthrie Lecturers
- 1965 John Bertram Adams
- 1964 Martin Ryle
- 1963 Leslie Fleetwood Bates
- 1962 Alfred Charles Bernard Lovell[5]
- 1961 David Shoenberg
- 1960 Fred Hoyle
- 1959 Harrie Stewart Wilson Massey
- 1958 Willis Eugene Lamb
- 1957 Harold C Urey
- 1956 Francis Simon
- 1955 Edmund Clifton Stoner
- 1954 Geoffrey Taylor
- 1953 Max Born
- 1952 W Lawrence Bragg
- 1951 Nevill Francis Mott
- 1950 George Ingle Finch
- 1949 Alexander Oliver Rankine
- 1948 George Paget Thomson
- 1947 John Desmond Bernal
- 1946 Max Jakob
- 1945 Arturo Duperier: "The Geophysical Aspect of Cosmic Rays"[6]
- 1944 Joel H Hildebrand
- 1943 Edward T. Whittaker: "Chance, freewill and necessity, in the scientific conception of the universe"[7]
- 1942 Edward V Appleton
- 1941 Edward Neville da Costa Andrade
- 1940 Patrick Maynard Stuart Blackett: "Cosmic Rays: Recent Developments"[8]
- 1939 (no lecture)
- 1938 Archibald Vivian Hill: "The transformations of energy and the mechanical work of muscles"[9]
- 1937 Clifford Copland Paterson
- 1936 Frederick A. Lindemann: "Physical Ultimates"[10]
- 1935 Arthur Holly Compton: "An attempt to analyse Cosmic Rays"
- 1934 Charles Vernon Boys: "My recent progress in Gas Calorimetry"
- 1933 Karl Manne Georg Siegbahn
- 1932 Max Planck
- 1931 Richard T Glazebrook
- 1930 Peter Debye
- 1929 Percy Williams Bridgman
- 1928 J. J. Thomson
- 1927 Sir Ernest Rutherford: "Atomic nuclei and their transformations"[11]
- 1926 Charles Fabry
- 1925 Wilhelm Wien
- 1924 Maurice le Duc de Broglie
- 1923 James Hopwood Jeans
- 1922 Niels Bohr: "The Effect of Electric and Magnetic Fields on Spectral Lines"[12]
- 1921 Albert Abraham Michelson: "Some Recent Applications of Interference Methods"[13]
- 1920 Charles Edouarde Guillaume: "The Anomaly of Nickel-Steels"[14]
- 1919 (no lecture)
- 1918 John Cunningham McLennan: "The Origin of Spectra"[15]
- 1917 Paul Langevin
- 1916 William Bate Hardy: "Some Problems of Living Matter"[16]
- 1915 (no lecture)
- 1914 Robert Williams Wood: "Radiation of Gas Molecules Excited by Light"[17]
External links
See also
References
- ^ "Gold medals". Institute of Physics.
The Faraday medal: Awarded for outstanding and sustained contributions to experimental physics, to a physicist of international reputation
- ^ "Michael Faraday Medal and Prize". Institute of Physics. Retrieved 2018-04-04.
- ^ G. Carey-Foster (1913). "Introduction to the First Guthrie Lecture". Proceedings of the Physical Society of London. 26: 183–184. doi:10.1088/0370-1328/26/1/322.
- ^ "Faraday medal recipients". Institute of Physics. Retrieved 4 April 2018.
- ^ A. C. B. Lovell (1963). "1962 Guthrie Lecture: The Physical Basis of the Research Programmes at Jodrell Bank". Proceedings of the Physical Society of London. 81: 385–411. Bibcode:1963PPS....81..385L. doi:10.1088/0370-1328/81/3/301.
- ^ A. Duperier (1945). "The Geophysical Aspect of Cosmic Rays". Proceedings of the Physical Society. 57: 464–477. Bibcode:1945PPS....57..464D. doi:10.1088/0959-5309/57/6/302.
- ^ E.T. Whittaker (1943). "Chance, freewill and necessity, in the scientific conception of the universe". Proceedings of the Physical Society. 55: 459–471. Bibcode:1943PPS....55..459W. doi:10.1088/0959-5309/55/6/303.
- ^ P.M.S. Blackett (1941). "Cosmic Rays: Recent Developments". Proceedings of the Physical Society. 53: 203–213. Bibcode:1941PPS....53..203B. doi:10.1088/0959-5309/53/3/301.
- ^ A.V. Hill (1939). "The transformations of energy and the mechanical work of muscles". Proceedings of the Physical Society. 51: 1–18. Bibcode:1939PPS....51....1H. doi:10.1088/0959-5309/51/1/302. ISSN 0959-5309.
- ^ "Guthrie Lecture: Prof. F. A. Lindemann, F.R.S". Nature. 137: 809. 1936. Bibcode:1936Natur.137S.809.. doi:10.1038/137809c0. Retrieved 2018-04-04.
- ^ Ernest Rutherford (1926). "Atomic nuclei and their transformations". Proceedings of the Physical Society. 39: 359–371. Bibcode:1926PPS....39..359R. doi:10.1088/0959-5309/39/1/332.
- ^ N. Bohr (1922). "The Effect of Electric and Magnetic Fields on Spectral Lines". Proceedings of the Physical Society of London. 35: 275–302. Bibcode:1922PPSL...35..275B. doi:10.1088/1478-7814/35/1/342.
- ^ A.A. Michelson (1920). "Some Recent Applications of Interference Methods". Proceedings of the Physical Society of London. 33: 275–285. Bibcode:1920PPSL...33..275M. doi:10.1088/1478-7814/33/1/328.
- ^ Charles Edouard Guillaume (1919). "The Anomaly of the Nickel-Steels". Proceedings of the Physical Society of London. 32: 374–404. Bibcode:1919PPSL...32..374E. doi:10.1088/1478-7814/32/1/337. ISSN 1478-7814.
- ^ J.C. McLennan (1918). "The Origin of Spectra". Proceedings of the Physical Society of London. 31: 1–29. Bibcode:1918PPSL...31....1M. doi:10.1088/1478-7814/31/1/301.
- ^ W.B. Hardy (1915). "Some Problems of Living Matter". Proceedings of the Physical Society of London. 28: 99–118. Bibcode:1915PPSL...28...99H. doi:10.1088/1478-7814/28/1/312.
- ^ R. W. Wood (1913). "Radiation of Gas Molecules Excited by Light". Proceedings of the Physical Society of London. 26: 374–404. Bibcode:1913PPSL...26..185W. doi:10.1088/1478-7814/26/1/323.