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Kenneth G. Wilson

From Wikipedia, the free encyclopedia
American theoretical physicist (1936–2013)
Not to be confused withKenneth G. Wilson (author).
Kenneth G. Wilson
Born
Kenneth Geddes Wilson

(1936-06-08)June 8, 1936
DiedJune 15, 2013(2013-06-15) (aged 77)
NationalityAmerican
EducationHarvard University (AB)
California Institute of Technology (PhD)
Known forLattice field theory
Lattice QCD
Numerical renormalization group
Operator product expansion
Wilson action
Wilson ERGE
Wilson fermion
Wilson loops
Wilson ratio
Ginsparg–Wilson equation
AwardsHeineman Prize(1973)
Boltzmann Medal(1975)
Wolf Prize in Physics(1980)
Franklin Medal(1982)
Nobel Prize in Physics(1982)
Eringen Medal(1984)
UNSW Dirac Medal(1989)
Scientific career
FieldsTheoretical physics
InstitutionsCornell University(1963–1988)
Ohio State University(1988–2008)
ThesisAn investigation of the Low equation and the Chew-Mandelstam equations (1961)
Doctoral advisorMurray Gell-Mann[1]
Doctoral studentsH. R. Krishnamurthy
Roman Jackiw
Michael Peskin
Serge Rudaz
Paul Ginsparg
Steven R. White[1]

Kenneth Geddes "Ken"Wilson (June 8, 1936 – June 15, 2013) was an Americantheoretical physicist and a pioneer in using computers for studying particle physics. He was awarded the 1982 Nobel Prize in Physics for his work onphase transitions—illuminating the subtle essence of phenomena like melting ice and emerging magnetism. It was embodied in his fundamental work on therenormalization group.

Life

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Wilson was born on June 8, 1936, in Waltham, Massachusetts, the oldest child of Emily Buckingham Wilson andE. Bright Wilson, a prominent chemist at Harvard University, who didimportant work on microwave emissions. His mother also trained as a physicist. He attended several schools, includingMagdalen College School, Oxford, England,ending up at theGeorge School in eastern Pennsylvania.

He went on toHarvard College at age 16, majoring in Mathematics and, on two occasions, in 1954 and 1956, ranked among the top five in theWilliam Lowell Putnam Mathematical Competition.[2]He was also a star on the athletics track, representing Harvard in the Mile. During his summer holidays he worked at theWoods Hole Oceanographic Institution. He earned hisPhD fromCaltech in 1961, studying underMurray Gell-Mann.[3] He did post-doc work at Harvard and CERN.[4]

He joinedCornell University in 1963 in the Department of Physics as a junior faculty member, becoming a full professor in 1970. He also did research atSLAC during this period.[5] In 1974, he became the James A. Weeks Professor of Physics at Cornell.

In 1982 he was awarded the Nobel Prize in Physics for his work oncritical phenomena using therenormalization group.[6]

He was a co-winner of theWolf Prize in physics in 1980, together withMichael E. Fisher andLeo Kadanoff.His other awards include the A.C. Eringen Medal, the Franklin Medal, the Boltzmann Medal, and the Dannie Heinemann Prize. He was elected a member of the National Academy of Science and a fellow of the American Academy of Arts and Science, both in 1975, and also was elected a member of the American Philosophical Society in 1984.[7]

In 1985, he was appointed as Cornell's Director of the Center for Theory and Simulation in Science and Engineering (now known as theCornell Theory Center), one of five national supercomputer centers created by theNational Science Foundation. In 1988, Wilson joined the faculty atOhio State University. Wilson moved to Gray, Maine in 1995. He continued his association with Ohio State University until he retired in 2008. Prior to his death, he was actively involved in research on physics education and was an early proponent of "active involvement" (i.e. Science by Inquiry) of K-12 students in science and math.

Some of his PhD students includeH. R. Krishnamurthy,Roman Jackiw,Michael Peskin,Serge Rudaz,Paul Ginsparg, andSteven R. White.[1]

Wilson's brother David was also a professor at Cornell in the department of Molecular Biology and Genetics until his death,[8] and his wife since 1982, Alison Brown, is a prominent computer scientist.

He died in Saco, Maine, on June 15, 2013, at the age of 77.[9][10] He was respectfully remembered by his colleagues.[1][9][11]

Work

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Wilson's work in physics involved formulation of a comprehensive theory of scaling: how fundamental properties and forces of a system vary depending on the scale over which they are measured. He devised a universal "divide-and-conquer" strategy for calculating how phase transitions occur, by considering each scale separately and then abstracting the connection between contiguous ones, in a novel appreciation ofrenormalization group theory. This provided profound insights into the field of critical phenomena and phase transitions instatistical physics enabling precise calculations.[12][13][14][15] One example of an important problem in solid-state physics he solved using renormalization is in quantitatively describing theKondo effect.[16]

He extended these insights on scaling to answer fundamental questions on the nature ofquantum field theory and theoperator product expansion[17] and the physical meaning of the renormalization group.[18]

He also pioneered the understanding ofthe confinement of quarks inside hadrons,[19] utilizinglattice gauge theory,and initiating an approach permitting formerly foreboding strong-coupling calculations on computers. On such a lattice, he further shed light onchiral symmetry, a crucial feature of elementary particle interactions.[20]

Awards and honors

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Notes

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  1. ^abcdKenneth G. Wilson at theMathematics Genealogy Project
  2. ^"Putnam Competition Individual and Team Winners".Mathematical Association of America. Archived fromthe original on March 12, 2014. RetrievedDecember 10, 2021.
  3. ^Wilson, K. G. (1961). "An investigation of the Low equation and the Chew-Mandelstam equations", Dissertation (Ph.D.), California Institute of Technology.[1]
  4. ^Overbye, Dennis (20 June 2013)."Kenneth Wilson, Nobel Physicist, Dies at 77".The New York Times. Retrieved10 April 2018.
  5. ^Wilson, K. G."Broken Scale Invariance and Anomalous Dimensions", Stanford Linear Accelerator Center (SLAC,)Stanford University, Laboratory of Nuclear Studies, Cornell University,United States Department of Energy (through predecessor agency theAtomic Energy Commission), (May 1970).
  6. ^Wilson, K. (1974). "The renormalization group and the ε expansion".Physics Reports.12 (2):75–199.Bibcode:1974PhR....12...75W.doi:10.1016/0370-1573(74)90023-4.;Wilson, K. (1983). "The renormalization group and critical phenomena".Reviews of Modern Physics.55 (3):583–600.Bibcode:1983RvMP...55..583W.doi:10.1103/RevModPhys.55.583.;Wilson, K. G. (1974). "Critical phenomena in 3.99 dimensions".Physica.73 (1):119–128.Bibcode:1974Phy....73..119W.doi:10.1016/0031-8914(74)90229-8.
  7. ^"Member History".American Philosophical Society.
  8. ^"Renowned biochemist David B. Wilson dies at 77 | Cornell Chronicle".news.cornell.edu. Retrieved2017-09-15.
  9. ^abOverbye, Dennis (June 20, 2013)."Kenneth Wilson, Nobel Physicist, Dies at 77".NY Times.
  10. ^"Physics Nobel laureate Kenneth Wilson dies".Cornell Chronicle. June 18, 2013.
  11. ^Kadanoff, L. P. (2013). "Kenneth Geddes Wilson (1936–2013) Nobel-prizewinning physicist who revolutionized theoretical science".Nature.500 (7460): 30.arXiv:1411.6680.Bibcode:2013Natur.500...30K.doi:10.1038/500030a.PMID 23903743.S2CID 205078161.
  12. ^Wilson, K. G. (1971)."Renormalization Group and Critical Phenomena. I. Renormalization Group and the Kadanoff Scaling Picture".Physical Review B.4 (9):3174–3183.Bibcode:1971PhRvB...4.3174W.doi:10.1103/PhysRevB.4.3174.
  13. ^Wilson, K. (1971)."Renormalization Group and Critical Phenomena. II. Phase-Space Cell Analysis of Critical Behavior".Physical Review B.4 (9):3184–3205.Bibcode:1971PhRvB...4.3184W.doi:10.1103/PhysRevB.4.3184.
  14. ^Wilson, K. G.; Fisher, M. (1972). "Critical exponents in 3.99 dimensions".Physical Review Letters.28 (4): 240.Bibcode:1972PhRvL..28..240W.doi:10.1103/physrevlett.28.240.
  15. ^Wilson, K. G.; Kogut, J. (1974). "The renormalization group and the epsilon expansion".Physics Reports.12 (2): 75.Bibcode:1974PhR....12...75W.doi:10.1016/0370-1573(74)90023-4.
  16. ^Wilson, K. (1975). "The renormalization group: Critical phenomena and the Kondo problem".Reviews of Modern Physics.47 (4):773–840.Bibcode:1975RvMP...47..773W.doi:10.1103/RevModPhys.47.773.
  17. ^Wilson, K. G.Non-lagrangian models in current algebra Physical Review,179, 1969, p. 1499–1512;Model of coupling constant renormalisation, Physical Review D, 2, 1970, p. 1438–1472; Wilson, K. G.,Operator product expansions and anomalous dimensions in Thirring model, ibid., p. 1473–77;Anomalous dimensions and breakdown of scale invariance in perturbation theory, ibid. p. 1478–93;Wilson, K. (1971). "Renormalization Group and Strong Interactions".Physical Review D.3 (8):1818–1846.Bibcode:1971PhRvD...3.1818W.doi:10.1103/PhysRevD.3.1818.OSTI 1444885.;Wilson, K. G. (1973). "Quantum Field - Theory Models in Less Than 4 Dimensions".Physical Review D.7 (10):2911–2926.Bibcode:1973PhRvD...7.2911W.doi:10.1103/PhysRevD.7.2911.
  18. ^Wilson, K. G.:Problems in physics with many scales of length, Scientific American, August 1979"Archived copy"(PDF). Archived fromthe original(PDF) on 2012-07-10. Retrieved2013-06-18.{{cite web}}: CS1 maint: archived copy as title (link)
  19. ^Wilson, K. (1974). "Confinement of quarks".Physical Review D.10 (8):2445–2459.Bibcode:1974PhRvD..10.2445W.doi:10.1103/PhysRevD.10.2445.
  20. ^Ginsparg, P.; Wilson, K. (1982). "A remnant of chiral symmetry on the lattice".Physical Review D.25 (10): 2649.Bibcode:1982PhRvD..25.2649G.doi:10.1103/PhysRevD.25.2649.
  21. ^"Golden Plate Awardees of the American Academy of Achievement".www.achievement.org.American Academy of Achievement.
  22. ^"1993 Aneesur Rahman Prize for Computational Physics Recipient". American Physical Society. Retrieved9 January 2022.

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