The Fields Medal is regarded as one of the highest honors a mathematician can receive, and has been described as the Nobel Prize of Mathematics,[2][3][4] although there are several major differences, including frequency of award, number of awards, age limits, monetary value, and award criteria.[5] According to the annual Academic Excellence Survey by ARWU, the Fields Medal is consistently regarded as the top award in the field of mathematics worldwide,[6] and in another reputation survey conducted by IREG in 2013–14, the Fields Medal came closely after the Abel Prize as the second most prestigious international award in mathematics.[7][8]
The prize includes a monetary award which, since 2006, has been CA$15,000.[9][10] Fields was instrumental in establishing the award, designing the medal himself, and funding the monetary component, though he died before it was established and his plan was overseen by John Lighton Synge.[1]
The medal was first awarded in 1936 to Finnish mathematician Lars Ahlfors and American mathematician Jesse Douglas, and it has been awarded every four years since 1950. Its purpose is to give recognition and support to younger mathematical researchers who have made major contributions. In 2014, the Iranian mathematician Maryam Mirzakhani became the first female Fields Medalist.[11][12][13] In total, 64 people have been awarded the Fields Medal.
The most recent group of Fields Medalists received their awards on 5 July 2022 in an online event which was live-streamed from Helsinki, Finland. It was originally meant to be held in Saint Petersburg, Russia, but was moved following the 2022 Russian invasion of Ukraine.
Conditions of the award
The Fields Medal has for a long time been regarded as the most prestigious award in the field of mathematics and is often described as the Nobel Prize of Mathematics.[2][3][4] Unlike the Nobel Prize, the Fields Medal is only awarded every four years. The Fields Medal also has an age limit: a recipient must be under age 40 on 1 January of the year in which the medal is awarded. The under-40 rule is based on Fields's desire that "while it was in recognition of work already done, it was at the same time intended to be an encouragement for further achievement on the part of the recipients and a stimulus to renewed effort on the part of others."[14] Moreover, an individual can only be awarded one Fields Medal; winners are ineligible to be awarded future medals.[15]
First awarded in 1936, 64 people have won the medal as of 2022.[16] With the exception of two PhD holders in physics (Edward Witten and Martin Hairer),[17] only people with a PhD in mathematics have won the medal.[18]
List of Fields medalists
In certain years, the Fields medalists have been officially cited for particular mathematical achievements, while in other years such specificities have not been given. However, in every year that the medal has been awarded, noted mathematicians have lectured at the International Congress of Mathematicians on each medalist's body of work. In the following table, official citations are quoted when possible (namely for the years 1958, 1998, and every year since 2006). For the other years through 1986, summaries of the ICM lectures, as written by Donald Albers, Gerald L. Alexanderson, and Constance Reid, are quoted.[19] In the remaining years (1990, 1994, and 2002), part of the text of the ICM lecture itself has been quoted. The upcoming Fields Medal ceremony is scheduled for 2026, taking place in Philadelphia, US.[20]
"Achieved major results in the theory of harmonic integrals and numerous applications to Kählerian and more specifically to algebraic varieties. He demonstrated, by sheaf cohomology, that such varieties are Hodge manifolds."[33]
"Achieved major results on the homotopy groups of spheres, especially in his use of the method of spectral sequences. Reformulated and extended some of the main results of complex variable theory in terms of sheaves."[33]
"for creating the theory of 'Cobordisme' which has, within the few years of its existence, led to the most penetrating insight into the topology of differentiable manifolds."[37]
"Did joint work with Hirzebruch in K-theory; proved jointly with Singer the index theorem of elliptic operators on complex manifolds; worked in collaboration with Bott to prove a fixed point theorem related to the 'Lefschetz formula'."[43]
"Used technique called "forcing" to prove the independence in set theory of the axiom of choice and of the generalized continuum hypothesis. The latter problem was the first of Hilbert's problems of the 1900 Congress."[43]
"Built on work of Weil and Zariski and effected fundamental advances in algebraic geometry. He introduced the idea of K-theory (the Grothendieck groups and rings). Revolutionized homological algebra in his celebrated ‘Tôhoku paper’."[43]
"Worked in differential topology where he proved the generalized Poincaré conjecture in dimension n≥5: Every closed, n-dimensional manifold homotopy-equivalent to the n-dimensional sphere is homeomorphic to it. Introduced the method of handle-bodies to solve this and related problems."[43]
"Generalized the Gelfond-Schneider theorem (the solution to Hilbert's seventh problem). From this work he generated transcendental numbers not previously identified."[48]
"Generalized work of Zariski who had proved for dimension ≤ 3 the theorem concerning the resolution of singularities on an algebraic variety. Hironaka proved the results in any dimension."[48]
"Made important advances in topology, the most well-known being his proof of the topological invariance of the Pontryagin classes of the differentiable manifold. His work included a study of the cohomology and homotopy of Thom spaces."[48]
"Major contributions in the primes, in univalent functions and the local Bieberbach conjecture, in theory of functions of several complex variables, and in theory of partial differential equations and minimal surfaces – in particular, to the solution of Bernstein's problem in higher dimensions."[55]
"Contributed to problems of the existence and structure of varieties of moduli, varieties whose points parametrize isomorphism classes of some type of geometric object. Also made several important contributions to the theory of algebraic surfaces."[55]
"Gave solution of the three Weil conjectures concerning generalizations of the Riemann hypothesis to finite fields. His work did much to unify algebraic geometry and algebraic number theory."[58]
"Contributed several innovations that revised the study of multidimensional complex analysis by finding correct generalizations of classical (low-dimensional) results."[58]
"Provided innovative analysis of the structure of Lie groups. His work belongs to combinatorics, differential geometry, ergodic theory, dynamical systems, and Lie groups."[58]
"The prime architect of the higher algebraic K-theory, a new tool that successfully employed geometric and topological methods and ideas to formulate and solve major problems in algebra, particularly ring theory and module theory."[58]
"Contributed to the theory of operator algebras, particularly the general classification and structure theorem of factors of type III, classification of automorphisms of the hyperfinite factor, classification of injective factors, and applications of the theory of C*-algebras to foliations and differential geometry in general."[63]
"Revolutionized study of topology in 2 and 3 dimensions, showing interplay between analysis, topology, and geometry. Contributed idea that a very large class of closed 3-manifolds carry a hyperbolic structure."[63]
"Received medal primarily for his work on topology of four-manifolds, especially for showing that there is a differential structure on euclidian four-space which is different from the usual structure."[68][69]
"Drinfeld's main preoccupation in the last decade [are] Langlands' program and quantum groups. In both domains, Drinfeld's work constituted a decisive breakthrough and prompted a wealth of research."[74]
"Jones discovered an astonishing relationship between von Neumann algebras and geometric topology. As a result, he found a new polynomial invariant for knots and links in 3-space."[77]
"The most profound and exciting development in algebraic geometry during the last decade or so was [...] Mori's Program in connection with the classification problems of algebraic varieties of dimension three." "Early in 1979, Mori brought to algebraic geometry a completely new excitement, that was his proof of Hartshorne's conjecture."[79]
"Time and again he has surprised the mathematical community by a brilliant application of physical insight leading to new and deep mathematical theorems."[81]
"Bourgain's work touches on several central topics of mathematical analysis: the geometry of Banach spaces, convexity in high dimensions, harmonic analysis, ergodic theory, and finally, nonlinear partial differential equations from mathematical physics."[83]
"His contributions cover a variety of areas, from probability theory to partial differential equations (PDEs). Within the PDE area he has done several beautiful things in nonlinear equations. The choice of his problems have always been motivated by applications."[85]
"Yoccoz obtained a very enlightening proof of Bruno's theorem, and he was able to prove the converse [...] Palis and Yoccoz obtained a complete system of C∞ conjugation invariants for Morse-Smale diffeomorphisms."[87]
"For his contributions to algebra, the theory of automorphic forms, and mathematical physics, including the introduction of vertex algebras and Borcherds' Lie algebras, the proof of the Conway–Norton moonshine conjecture and the discovery of a new class of automorphic infinite products."[91]
"For his contributions to functional analysis and combinatorics, developing a new vision of infinite-dimensional geometry, including the solution of two of Banach's problems and the discovery of the so called Gowers' dichotomy: every infinite dimensional Banach space contains either a subspace with many symmetries (technically, with an unconditional basis) or a subspace every operator on which is Fredholm of index zero."[91]
"For his contributions to algebraic geometry, topology, and mathematical physics, including the proof of Witten's conjecture of intersection numbers in moduli spaces of stable curves, construction of the universal Vassiliev invariant of knots, and formal quantization of Poisson manifolds."[91]
"For his contributions to the theory of holomorphic dynamics and geometrization of three-manifolds, including proofs of Bers' conjecture on the density of cusp points in the boundary of the Teichmüller space, and Kra's theta-function conjecture."[91]
"Laurent Lafforgue has been awarded the Fields Medal for his proof of the Langlands correspondence for the full linear groups GLr (r≥1) over function fields of positive characteristic."[96]
"He defined and developed motivic cohomology and the A1-homotopy theory, provided a framework for describing many new cohomology theories for algebraic varieties; he proved the Milnor conjectures on the K-theory of fields."[98]
"For his profound contributions to dynamical systems theory, which have changed the face of the field, using the powerful idea of renormalization as a unifying principle."[110]
"For developing powerful new methods in the geometry of numbers, which he applied to count rings of small rank and to bound the average rank of elliptic curves."[110]
"For his outstanding contributions to the theory of stochastic partial differential equations, and in particular for the creation of a theory of regularity structures for such equations."[110]
"For solving longstanding problems in the probabilistic theory of phase transitions in statistical physics, especially in dimensions three and four."[121]
"For bringing the ideas of Hodge theory to combinatorics, the proof of the Dowling–Wilson conjecture for geometric lattices, the proof of the Heron–Rota–Welsh conjecture for matroids, the development of the theory of Lorentzian polynomials, and the proof of the strong Mason conjecture."[121]
"For contributions to analytic number theory, which have led to major advances in the understanding of the structure of prime numbers and in Diophantine approximation."[121]
"For the proof that the lattice provides the densest packing of identical spheres in 8 dimensions, and further contributions to related extremal problems and interpolation problems in Fourier analysis."[121][122]
^ICM 2022 was originally planned to be held in Saint Petersburg, Russia, but was moved online following the 2022 Russian invasion of Ukraine. The award ceremony for the Fields Medals and prize winner lectures took place in Helsinki, Finland and were live-streamed.[118][119]
Landmarks
The medal was first awarded in 1936 to the Finnish mathematician Lars Ahlfors and the American mathematician Jesse Douglas, and it has been awarded every four years since 1950. Its purpose is to give recognition and support to younger mathematical researchers who have made major contributions.
In 1954, Jean-Pierre Serre became the youngest winner of the Fields Medal, at 27.[123] He retains this distinction.[124]
In 1970, Sergei Novikov, because of restrictions placed on him by the Soviet government, was unable to travel to the congress in Nice to receive his medal.[127]
In 1978, Grigory Margulis, because of restrictions placed on him by the Soviet government, was unable to travel to the congress in Helsinki to receive his medal. The award was accepted on his behalf by Jacques Tits, who said in his address: "I cannot but express my deep disappointment—no doubt shared by many people here—in the absence of Margulis from this ceremony. In view of the symbolic meaning of this city of Helsinki, I had indeed grounds to hope that I would have a chance at last to meet a mathematician whom I know only through his work and for whom I have the greatest respect and admiration."[128]
In 1982, the congress was due to be held in Warsaw but had to be rescheduled to the next year, because of martial law introduced in Poland on 13 December 1981. The awards were announced at the ninth General Assembly of the IMU earlier in the year and awarded at the 1983 Warsaw congress.[129]
In 1998, at the ICM, Andrew Wiles was presented by the chair of the Fields Medal Committee, Yuri I. Manin, with the first-ever IMU silver plaque in recognition of his proof of Fermat's Last Theorem. Don Zagier referred to the plaque as a "quantized Fields Medal". Accounts of this award frequently make reference that at the time of the award Wiles was over the age limit for the Fields medal.[131] Although Wiles was slightly over the age limit in 1994, he was thought to be a favorite to win the medal; however, a gap (later resolved by Taylor and Wiles) in the proof was found in 1993.[132][133]
In 2022, Maryna Viazovska became the first Ukrainian to win the Fields Medal, and June Huh became the first person of Korean ancestry to do so.[137][138]
Medal
The reverse of the Fields Medal
The medal was designed by Canadian sculptor R. Tait McKenzie.[139] It is made of 14KT gold, has a diameter of 63.5mm, and weighs 169g.[140]
On the obverse is Archimedes and a quote attributed to 1st century AD poet Manilius, which reads in Latin: Transire suum pectus mundoque potiri ("To surpass one's understanding and master the world").[141][142] The year number 1933 is written in Roman numerals and contains an error (MCNXXXIII rather than MCMXXXIII).[143] In capital Greek letters the word Ἀρχιμηδους, or "of Archimedes," is inscribed.
On the reverse is the inscription:
Congregati ex toto orbe mathematici ob scripta insignia tribuere
Translation: "Mathematicians gathered from the entire world have awarded [understood but not written: 'this prize'] for outstanding writings."
In the background, there is the representation of Archimedes' tomb, with the carving illustrating his theorem On the Sphere and Cylinder, behind an olive branch. (This is the mathematical result of which Archimedes was reportedly most proud: Given a sphere and a circumscribed cylinder of the same height and diameter, the ratio between their volumes is equal to 2⁄3.)
The Fields Medal gained some recognition in popular culture due to references in the 1997 film, Good Will Hunting. In the movie, Gerald Lambeau (Stellan Skarsgård) is an MIT professor who won the award prior to the events of the story. Throughout the film, references made to the award are meant to convey its prestige in the field.[145]
^Albers, Donald J.; Alexanderson, G. L.; Reid, Constance. International mathematical congresses. An illustrated history 1893–1986. Rev. ed. including ICM 1986. Springer-Verlag, New York, 1986
^"ICM 2026". International Mathematical Union. Retrieved 2 June 2024.
^"Lars Ahlfors (1907–1996)". Harvard University, Dept. of Math. 7 November 2004. Archived from the original on 23 November 2014. Retrieved 19 August 2014.
^ ab"Fields Medals 1936". mathunion.org. International Mathematical Union. Archived from the original on 31 July 2020. Retrieved 7 April 2019.
^"Jesse Douglas". Encyclopædia Britannica. 28 May 2010. Archived from the original on 3 September 2014. Retrieved 19 August 2014.
^"Laurent Moise Schwartz". School of Mathematics and Statistics University of St Andrews, Scotland. 24 June 2007. Archived from the original on 6 October 2014. Retrieved 19 August 2014.
^"Prof. Stephen SMALE (史梅爾)". City University of Hong Kong. 5 April 2012. Archived from the original on 9 November 2014. Retrieved 18 August 2014.
^"The Laureates". Heidelberg Laureate Forum Foundation (HLFF). 25 September 2013. Archived from the original on 18 October 2014. Retrieved 16 August 2014.
^ abcd"Fields Medals 1970". mathunion.org. International Mathematical Union. Archived from the original on 8 April 2022. Retrieved 7 April 2019.
^"Professor Emeritus". Research Institute for Mathematical Sciences, Kyoto, Japan. 26 May 2007. Archived from the original on 5 April 2022. Retrieved 16 August 2014.
^Bartocci, Claudio; Betti, Renato; Guerraggio, Angelo; et al., eds. (2011). Vite Mathematiche [Mathematical Lives: Protagonists of the Twentieth Century From Hilbert to Wiles] (2011 ed.). Springer. pp. 2013–2014. ISBN978-3642136054.
^ ab"Fields Medals 1974". mathunion.org. International Mathematical Union. Archived from the original on 8 April 2022. Retrieved 7 April 2019.
^"David Mumford". The Division of Applied Mathematics, Brown University. Archived from the original on 6 October 2014. Retrieved 18 August 2014.
^"Vladimir Gershonovich Drinfeld". School of Mathematics and Statistics, University of St Andrews, Scotland. 18 August 2009. Archived from the original on 6 October 2014. Retrieved 16 August 2014.
^"Department of Mathematics". Columbia University, Department of Mathematics. 20 December 2012. Archived from the original on 6 October 2014. Retrieved 19 August 2014.
^"Andrei Okounkov". math.berkeley.edu. Berkeley Mathematics. Archived from the original on 22 February 2023. Retrieved 22 August 2022.
^"Faculty". The Princeton University, Department of Mathematics. 8 May 2012. Archived from the original on 25 December 2014. Retrieved 19 December 2014.
^"Fields Medal". International Mathematical Union. 2022. Archived from the original on 26 December 2018. Retrieved 7 July 2022.
^Riehm, C. (2002). "The early history of the Fields Medal"(PDF). Notices of the AMS. 49 (7): 778–782. Archived(PDF) from the original on 26 October 2006. Retrieved 28 April 2021. The Latin inscription from the Roman poet Manilius surrounding the image may be translated 'To pass beyond your understanding and make yourself master of the universe.' The phrase comes from Manilius's Astronomica 4.392 from the first century A.D. (p. 782).
^"The Fields Medal". Fields Institute for Research in Mathematical Sciences. 5 February 2015. Archived from the original on 23 April 2021. Retrieved 23 April 2021.
^Knobloch, Eberhard (2008). "Generality and Infinitely Small Quantities in Leibniz's Mathematics: The Case of his Arithmetical Quadrature of Conic Sections and Related Curves". In Goldenbaum, Ursula; Jesseph, Douglas (eds.). Infinitesimal Differences: Controversies between Leibniz and his Contemporaries. Walter de Gruyter.
^"The Fields Medal". Fields Institute for Research in Mathematical Sciences. 5 February 2015. Archived from the original on 23 April 2021. Retrieved 30 August 2022.
McKinnon Riehm, Elaine; Hoffman, Frances (2011). Turbulent Times in Mathematics: The Life of J.C. Fields and the History of the Fields Medal. Providence, RI: American Mathematical Society. ISBN978-0-8218-6914-7.
Monastyrsky, Michael (1998). Modern Mathematics in the Light of the Fields Medal. Wellesley, MA: A. K. Peters. ISBN1-56881-083-0.
Tropp, Henry S. (1976). "The Origins and History of the Fields Medal". Historia Mathematica. 3 (2): 167–181. doi:10.1016/0315-0860(76)90033-1..
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