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Cole Prize
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The Frank Nelson Cole Prize, or Cole Prize for short, is one of two prizes awarded to mathematicians by the American Mathematical Society, one for an outstanding contribution to algebra, and the other for an outstanding contribution to number theory.[1] The prize is named after Frank Nelson Cole, who served the Society for 25 years. The Cole Prize in algebra was funded by Cole himself, from funds given to him as a retirement gift; the prize fund was later augmented by his son, leading to the double award.[1][2]
The prizes recognize a notable research work in algebra (given every three years) or number theory (given every three years) that has appeared in the last six years. The work must be published in a recognized, peer-reviewed venue. The first award for algebra was made in 1928 to L. E. Dickson, while the first award for number theory was made in 1931 to H. S. Vandiver.[2]
Frank Nelson Cole Prize in Algebra
[edit]| Year | Prizewinner | Citation |
|---|---|---|
| 1928 | Leonard E. Dickson | for his book "Algebren und ihre Zahlentheorie" |
| 1939 | Abraham Adrian Albert | for his papers on the construction of Riemann matrices |
| 1944 | Oscar Zariski | for four papers on algebraic varieties |
| 1949 | Richard Brauer | for his paper "On Artin's L-series with general group characters" |
| 1954 | Harish-Chandra | for his papers on representations of semisimple Lie algebras and groups |
| 1960 | Serge Lang | for his paper "Unramified class field theory over function fields in several variables" |
| Maxwell A. Rosenlicht | for his papers "Generalized Jacobian varieties" and "A universal mapping property of generalized Jacobians" | |
| 1965 | Walter Feit John G. Thompson |
for their joint paper "Solvability of groups of odd order" |
| 1970 | John R. Stallings | for his paper "On torsion-free groups with infinitely many ends" |
| Richard G. Swan | for his paper "Groups of cohomological dimension one" | |
| 1975 | Hyman Bass | for his paper "Unitary algebraic K-theory" |
| Daniel G. Quillen | for his paper "Higher algebraic K-theories" | |
| 1980 | Michael Aschbacher | for his paper "A characterization of Chevalley groups over fields of odd order" |
| Melvin Hochster | for his paper "Topics in the homological theory of commutative rings" | |
| 1985 | George Lusztig | for his fundamental work on the representation theory of finite groups of Lie type |
| 1990 | Shigefumi Mori | for his outstanding work on the classification of algebraic varieties |
| 1995 | Michel Raynaud David Harbater |
for their solution of Abhyankar's conjecture |
| 2000 | Andrei Suslin | for his work on motivic cohomology |
| Aise Johan de Jong | for his important work on the resolution of singularities by generically finite maps | |
| 2003 | Hiraku Nakajima | for his work in representation theory and geometry |
| 2006 | János Kollár | for his outstanding achievements in the theory of rationally connected varieties and for his illuminating work on a conjecture of Nash |
| 2009 | Christopher Hacon James McKernan |
for their groundbreaking joint work on higher dimensional birational algebraic geometry |
| 2012 | Alexander Merkurjev | for his work on the essential dimension of groups |
| 2015 | Peter Scholze | for his work on perfectoid spaces which has led to a solution of an important special case of the weight-monodromy conjecture of Deligne |
| 2018 | Robert Guralnick | for his groundbreaking research on representation theory, cohomology, and subgroup structure of finite quasi-simple groups, and the wide-ranging applications of this work to other areas of mathematics. |
| 2021 | Chenyang Xu | for leading a group developing an algebraic theory of moduli for K-stable Fano varieties and working out a radically new approach to the singularities of the minimal model program using K-stability. |
| 2024 | Jessica Fintzen | for her work transforming the understanding of representations of p-adic groups, in particular for the article “Types for tame p-adic groups”. |
Frank Nelson Cole Prize in Number Theory
[edit]| Year | Prizewinner | Citation |
|---|---|---|
| 1931 | Harry Vandiver | for his several papers on Fermat's last theorem |
| 1941 | Claude Chevalley | for his paper "La théorie du corps de classes" |
| 1946 | Henry B. Mann | for his paper "A proof of the fundamental theorem on the density of sums of sets of positive integers" |
| 1951 | Paul Erdős | for his many papers in the theory of numbers |
| 1956 | John T. Tate | for his paper "The higher dimensional cohomology groups of class field theory" |
| 1962 | Kenkichi Iwasawa | for his paper "Gamma extensions of number fields" |
| Bernard M. Dwork | for his paper "On the rationality of the zeta function of an algebraic variety" | |
| 1967 | James Ax Simon B. Kochen |
for a series of three joint papers "Diophantine problems over local fields I, II, III" |
| 1972 | Wolfgang M. Schmidt | for various papers |
| 1977 | Goro Shimura | for various papers |
| 1982 | Robert P. Langlands | for pioneering work on automorphic forms, Eisenstein series and product formulas |
| Barry Mazur | for outstanding work on elliptic curves and Abelian varieties, especially on rational points of finite order | |
| 1987 | Dorian M. Goldfeld | for his paper "Gauss's class number problem for imaginary quadratic fields" |
| Benedict Gross Don Zagier |
for their paper "Heegner points and derivatives of L-Series" | |
| 1992 | Karl Rubin | for his work in the area of elliptic curves and Iwasawa Theory |
| Paul Vojta | for his work on Diophantine problems | |
| 1997 | Andrew J. Wiles | for his work on the Shimura–Taniyama conjecture and Fermat's Last Theorem |
| 2002 | Henryk Iwaniec | for his fundamental contributions to analytic number theory |
| Richard Taylor | for several outstanding advances in algebraic number theory | |
| 2005 | Peter Sarnak | for his fundamental contributions to number theory |
| 2008 | Manjul Bharğava | for his revolutionary work on higher composition laws |
| 2011 | Chandrashekhar Khare Jean-Pierre Wintenberger |
for their remarkable proof of Serre's modularity conjecture |
| 2014 | Yitang Zhang | for his work on bounded gaps between primes |
| Daniel Goldston János Pintz Cem Y. Yıldırım |
for their work on small gaps between primes | |
| 2017 | Henri Darmon | for his contributions to the arithmetic of elliptic curves and modular forms. |
| 2020 | James Maynard | for his papers "Small gaps between primes" (Ann. of Math., 2015), "Large gaps between primes"(Ann. of Math., 2016), and "Primes with restricted digits" (Inv. Math., 2019). |
| 2023 | Kaisa Matomäki Maksym Radziwiłł |
for their breakthrough paper, "Multiplicative functions in short intervals" (Annals of Math. 183 (2016), pp. 1015-1056) |
| James Newton Jack Thorne |
for their astonishing proof of a landmark, sought-after case of the Langlands Conjectures: namely the symmetric power functoriality for holomorphic modular forms (achieved in their two papers: 1. Symmetric power functoriality for holomorphic modular forms, I. Publ. Math. Inst. Hautes Études Sci. 134 (2021), pp. 1-116 2. Symmetric power functoriality for holomorphic modular forms, II. Publ. Math. Inst. Hautes Études Sci. 134 (2021), pp. 117-152) | |
| 2026 | Frank Calegari Vesselin Dimitrov Yunqing Tang |
for their article “The unbounded denominators conjecture”, J. Amer. Math. Soc. 38 (2025), no. 3, 627–702.[3] |
For full citations, see external links.
See also
[edit]References
[edit]- ^ a b Richardson, R. G. (1930), "The Society's Prizes", Bulletin of the American Mathematical Society, 36: 3–4, doi:10.1090/S0002-9904-1930-04851-X.
- ^ a b Pitcher, Everett (1988), A history of the second fifty years, American Mathematical Society 1939-88, American Mathematical Society, pp. 51–54, ISBN 9780821896761.
- ^ Frank Nelson Cole Prize for Number Theory 2026
External links
[edit]Cole Prize
View on Grokipediafrom Grokipedia
History and Establishment
Frank Nelson Cole and the AMS
Frank Nelson Cole was born on September 20, 1861, in Ashland, Massachusetts, to Otis Cole and Frances Maria Pond Cole.[6] He attended Marlborough High School in Massachusetts before entering Harvard University in 1878, where he graduated second in his class with an A.B. in 1882.[6] Cole continued his studies at Harvard's Graduate School from 1882 to 1883 and received both A.M. and Ph.D. degrees in 1886; during 1883–1885, he studied at the University of Leipzig under Felix Klein on a Harvard fellowship.[6] His doctoral dissertation, titled "A Contribution to the Theory of the General Equation of the Sixth Degree," addressed topics in invariant theory related to algebraic equations.[7] Following his Ph.D., Cole began his academic career as a lecturer in the Harvard Graduate School from 1885 to 1887.[6] He then moved to the University of Michigan, serving as an instructor in 1888 and advancing to assistant professor from 1889 to 1895.[6] In 1895, he was appointed professor of mathematics at Columbia University, a position he held until his death in 1926; there, he was affiliated with the Faculty of Pure Science and taught at Barnard College.[6] His tenure at Columbia marked a period of steady administrative and scholarly work, though his research output shifted toward organizational roles in mathematics. Cole played a pivotal role in the American Mathematical Society (AMS), serving as its secretary from 1895 to 1920—a 25-year commitment that helped professionalize the organization during its formative years.[6] He joined the editorial staff of the Bulletin of the AMS in 1898 and acted as editor-in-chief from 1899 to 1920, overseeing its growth and quality.[6] Under his leadership, Cole organized numerous AMS meetings, expanded membership, and elevated the society's influence in the early 20th century; he also served as vice president in 1921 but declined the presidency.[8] His mathematical contributions focused on number theory and algebra, including groundbreaking work on factoring large Mersenne numbers (such as 2^{67} - 1 in 1903) and studies of simple groups of orders between 200 and 600, as well as solutions to combinatorial problems like the Kirkman schoolgirl problem.[8] Over his career, he published approximately 25 papers, along with a key English translation of Eugen Netto's Theory of Substitutions and Equations in 1892.[8] Cole retired from his AMS secretaryship in 1920 and planned to retire from Columbia on September 20, 1926, but died unexpectedly on May 26, 1926, in New York City from heart failure following surgery.[6] His enduring legacy within the AMS lies in transforming it into a leading professional body, with the Frank Nelson Cole Prizes in algebra and number theory established posthumously in 1928 to honor his service.[6]Founding of the Prizes
The Frank Nelson Cole Prizes in Algebra and Number Theory were established by the American Mathematical Society (AMS) in 1928 as a tribute to Frank Nelson Cole's 25 years of service as the society's secretary, a position from which he retired in 1920.[9] Cole, who passed away in 1926, directed that retirement gifts presented to him by friends and colleagues be used to fund the algebra prize, creating an initial endowment for recognizing exceptional contributions in that field.[8] In parallel, the AMS provided its own resources to establish the number theory prize, ensuring balanced recognition across the two areas central to Cole's scholarly interests. This dual structure reflected the society's commitment to honoring Cole's legacy through sustained support for foundational mathematical research. The prizes were designed to identify and reward outstanding research memoirs published during the preceding five years, with eligibility limited to works by AMS members appearing in recognized journals.[10] Initially intended for awards every five years, the schedule allowed flexibility to accommodate particularly meritorious contributions, a practice that evolved over time into the current triennial cycle covering publications from the prior six years.[9] The algebra prize's fund was significantly augmented in 1929 when Cole's son, Charles A. Cole, contributed an amount that more than doubled the endowment.[11] The inaugural Frank Nelson Cole Prize in Algebra was awarded in 1928 to Leonard Eugene Dickson for his seminal book Algebren und ihre Zahlentheorie, presented at an AMS meeting at Columbia University with a monetary component of $200 drawn from the prize fund.[12] The first Frank Nelson Cole Prize in Number Theory followed in 1931, given to Hugh Soule Vandiver for his series of papers on Fermat's Last Theorem published in the Transactions of the American Mathematical Society.[13] Both prizes have traditionally been presented during AMS meetings, with the monetary award increasing over the decades—reaching $4,000 by the late 1990s and $5,000 in the 2020s—to reflect the growing scope and impact of the honors.[10]Frank Nelson Cole Prize in Algebra
Description and Criteria
The Frank Nelson Cole Prize in Algebra recognizes a notable research memoir or paper that makes an outstanding contribution to the field of algebra, encompassing areas such as group theory, ring theory, algebraic geometry, representation theory, and related topics.[14] To be eligible, the work must have been published in a recognized, peer-reviewed mathematical journal within the six years preceding the award year, ensuring the prize honors recent advancements of exceptional merit.[14] The prize is open to mathematicians worldwide, with no restrictions based on nationality or membership in the American Mathematical Society (AMS).[14] Nominations are solicited annually from the mathematical community, typically accepted from February 1 to May 31 for consideration in the following year's award cycle, and must include a nomination letter, bibliographic details of the work, and a concise explanation of its significance.[14] These are evaluated by an AMS-appointed selection subcommittee, which recommends the recipient based on the work's impact and originality; the prize is awarded every three years.[14][15] The prize consists of a monetary award of $5,000 and a certificate, presented at a major AMS event such as the Joint Mathematics Meetings.[14] Established in 1928 with funding from Frank Nelson Cole and subsequent contributions from his family, George Lusztig, and an anonymous donor, the algebra prize was first awarded in 1928 to L. E. Dickson.[14][15]Recipients
The Frank Nelson Cole Prize in Algebra has been awarded since 1928 by the American Mathematical Society to recognize outstanding published research in algebra. The following presents a complete chronological list of recipients, including the year of award, names of recipient(s), and a brief summary of the cited contributions.[16]| Year | Recipient(s) | Summary of Awarded Work |
|---|---|---|
| 1928 | L. E. Dickson | Recognized for the book Algebren und ihre Zahlentheorie (Orell Füssli, Zürich and Leipzig, 1927), a comprehensive treatment of algebras and their number theory.[16] |
| 1939 | A. Adrian Albert | Awarded for papers on Riemann matrices (Annals of Mathematics, ser. 2, vol. 35 (1934) and vol. 36 (1935)), advancing the theory of algebras and quadratic forms.[16] |
| 1944 | Oscar Zariski | Honored for four papers on algebraic varieties (American Journal of Mathematics vols. 61 (1939) and 62 (1940); Annals of Mathematics vols. 40 (1939) and 41 (1940)), foundational work in algebraic geometry.[16] |
| 1949 | Richard Brauer | Cited for the paper "On Artin's L-series with general group characters" (Annals of Mathematics, ser. 2, vol. 48 (1947), pp. 502-514), contributing to representation theory of finite groups.[16] |
| 1954 | Harish-Chandra | Awarded for papers on representations of semisimple Lie algebras and groups, especially Transactions of the AMS, vol. 70 (1951), pp. 28-96, developing harmonic analysis on Lie groups.[16] |
| 1960 | Serge Lang; Maxwell A. Rosenlicht | Lang for "Unramified class field theory over function fields" (Annals of Mathematics, ser. 2, vol. 64 (1956), pp. 285-325); Rosenlicht for papers on generalized Jacobian varieties (Annals of Mathematics, ser. 2, vols. 59 (1954) and 66 (1957)).[16] |
| 1965 | Walter Feit; John G. Thompson | Honored for their joint paper "Solvability of groups of odd order" (Pacific Journal of Mathematics, vol. 13 (1963), pp. 775-1029), proving the odd order theorem in group theory.[16] |
| 1970 | John R. Stallings; Richard G. Swan | Stallings for "On torsion-free groups with infinitely many ends" (Annals of Mathematics, ser. 2, vol. 88 (1968)); Swan for "Groups of cohomological dimension one" (Journal of Algebra, vol. 12 (1969)).[16] |
| 1975 | Hyman Bass; Daniel G. Quillen | Bass for "Unitary algebraic K-theory" (Springer Lecture Notes in Mathematics, vol. 343, 1973); Quillen for "Higher algebraic K-theories" (Springer Lecture Notes in Mathematics, vol. 341, 1973).[16] |
| 1980 | Michael Aschbacher; Melvin Hochster | Aschbacher for "A characterization of Chevalley groups over fields of odd order" (Annals of Mathematics, ser. 2, vol. 106 (1977)); Hochster for "Topics in the homological theory of commutative rings" (CBMS Regional Conference Series, No. 24, AMS, 1975).[16] |
| 1985 | George Lusztig | Recognized for contributions to representation theory of finite groups of Lie type, especially Characters of reductive groups over finite fields (Annals of Mathematics Studies, vol. 107, Princeton University Press, 1984).[16] |
| 1990 | Shigefumi Mori | Awarded for "Flip theorem and the existence of minimal models for 3-folds" (Journal of the American Mathematical Society, vol. 1 (1988), pp. 117-253), advancing birational geometry.[16] |
| 1995 | Michel Raynaud; David Harbater | Honored for solving Abhyankar's conjecture: Raynaud in Invent. Math. 116 (1994), pp. 425-462; Harbater in Invent. Math. 117 (1994), pp. 1-25.[16] |
| 2000 | Andrei Suslin; Aise Johan de Jong | Suslin for work on motivic cohomology; de Jong for resolution of singularities by generically finite maps.[16] |
| 2003 | Hiraku Nakajima | Awarded for work in representation theory and geometry, including quiver varieties and instanton counting.[16] |
| 2006 | János Kollár | Recognized for contributions to the theory of rationally connected varieties and the Nash conjecture.[16] |
| 2009 | Christopher Hacon; James McKernan | Honored for breakthroughs in higher dimensional birational algebraic geometry, including minimal model program.[16] |
| 2012 | Alexander S. Merkurjev | Awarded for work on the essential dimension of groups and varieties.[16] |
| 2015 | Peter Scholze | Recognized for introducing perfectoid spaces and solving a special case of the weight-monodromy conjecture.[16] |
| 2018 | Robert M. Guralnick | Honored for contributions to representation theory, cohomology, and subgroup structure of finite quasi-simple groups.[16] |
| 2021 | Chenyang Xu | Awarded for developing the algebraic theory of moduli for K-stable Fano varieties and minimal model program singularities using K-stability.[16] |
| 2024 | Jessica Fintzen | Recognized for work on representations of p-adic groups, especially "Types for tame p-adic groups" (Annals of Mathematics (2) 193 (2021), no. 1, pp. 303-346).[16][4] |
Frank Nelson Cole Prize in Number Theory
Description and Criteria
The Frank Nelson Cole Prize in Number Theory recognizes a single notable research memoir or paper that makes an outstanding contribution to the field of number theory, encompassing areas such as analytic number theory, algebraic number theory, Diophantine approximation, and modular forms.[13] To be eligible, the work must have been published in a recognized, peer-reviewed mathematical journal within the six years preceding the award year, ensuring the prize honors recent advancements of exceptional merit.[13] The prize is open to mathematicians worldwide, with no restrictions based on nationality or membership in the American Mathematical Society (AMS).[13] Nominations are solicited annually from the mathematical community, typically accepted from February 1 to May 31 for consideration in the following year's award cycle, and must include a nomination letter, bibliographic details of the work, and a concise explanation of its significance.[13] These are evaluated by an AMS-appointed selection subcommittee, which recommends the recipient based on the work's impact and originality; the prize is awarded irregularly when such exceptional contributions are identified, though it has been presented approximately every three to five years since its inception.[13][15] The prize consists of a monetary award of $5,000 and a certificate, presented at a major AMS event such as the Joint Mathematics Meetings.[13] Established in 1928 alongside its counterpart in algebra but funded separately through an endowment from Frank Nelson Cole and subsequent contributions from his family, George Lusztig, and an anonymous donor, the number theory prize was first awarded in 1931 to H. S. Vandiver; it was originally intended for presentation every five years but has since adopted a more flexible triennial schedule supported by AMS general funds.[13][15]Recipients
The Frank Nelson Cole Prize in Number Theory has been awarded triennially since the 1990s (with earlier awards at varying intervals) by the American Mathematical Society to recognize outstanding published research in number theory. The following presents a complete chronological list of recipients, including the year of award, names of recipient(s), and a brief summary of the cited contributions.[17]| Year | Recipient(s) | Summary of Awarded Work |
|---|---|---|
| 1931 | H. S. Vandiver | Recognized for several papers on Fermat's Last Theorem, particularly "On Fermat's Last Theorem" (Transactions of the American Mathematical Society, vol. 31, 1929, pp. 613-642), which advanced criteria for potential solutions.[17] |
| 1941 | Claude Chevalley | Awarded for "La théorie du corps de classes" (Annals of Mathematics, ser. 2, vol. 41, 1940, pp. 394-418), providing a foundational reformulation of class field theory using algebraic geometry.[17] |
| 1946 | H. B. Mann | Honored for "A proof of the fundamental theorem on the density of sums of sets of positive integers" (Annals of Mathematics, ser. 2, vol. 43, 1942, pp. 523-527), establishing key results on additive bases in number theory.[17] |
| 1951 | Paul Erdős | Cited for numerous papers in number theory, especially "On a new method in elementary number theory which leads to an elementary proof of the prime number theorem" (Proceedings of the National Academy of Sciences, vol. 35, 1949, pp. 374-385), introducing innovative elementary techniques for prime distribution.[17] |
| 1956 | John T. Tate | Awarded for "The higher dimensional cohomology groups of class field theory" (Annals of Mathematics, ser. 2, vol. 56, 1952, pp. 294-297), developing cohomological methods that unified aspects of class field theory.[17] |
| 1962 | Kenkichi Iwasawa; Bernard M. Dwork | Iwasawa recognized for "Gamma extensions of number fields" (Bulletin of the American Mathematical Society, vol. 65, 1959, pp. 183-226), initiating the study of Iwasawa theory on infinite extensions; Dwork for "On the rationality of the zeta function of an algebraic variety" (American Journal of Mathematics, vol. 82, 1960, pp. 631-648), proving the rationality of zeta functions for varieties over finite fields.[17] |
| 1967 | James B. Ax; Simon B. Kochen | Honored for their joint series of three papers on Diophantine problems over local fields (American Journal of Mathematics, vol. 87, 1965, pp. 605-630, 631-648; Annals of Mathematics, ser. 2, vol. 83, 1966, pp. 437-456), resolving key questions in model theory and Diophantine approximation.[17] |
| 1972 | Wolfgang M. Schmidt | Awarded for papers on the simultaneous approximation of algebraic numbers by rationals, including "On simultaneous approximation of two algebraic numbers by rationals" (Acta Mathematica, vol. 119, 1967, pp. 27-50), advancing subspace theorems in Diophantine approximation.[17] |
| 1977 | Goro Shimura | Recognized for "Class fields over real quadratic fields and Hecke operators" (Annals of Mathematics, ser. 2, vol. 95, 1972, pp. 130-190) and "On modular forms of half integral weight" (Annals of Mathematics, ser. 2, vol. 97, 1973, pp. 440-481), contributing to the theory of modular forms and class field theory.[17] |
| 1982 | Robert P. Langlands; Barry Mazur | Langlands for "Base change for GL(2)" (Annals of Mathematics Studies, vol. 96, Princeton University Press, 1980), advancing automorphic representations; Mazur for "Modular curves and the Eisenstein ideal" (Publications Mathématiques de l'IHÉS, vol. 47, 1977, pp. 33-186), linking modular curves to Galois representations.[17] |
| 1987 | Dorian M. Goldfeld; Benedict H. Gross; Don B. Zagier | Goldfeld for "Gauss's class number problem for imaginary quadratic fields" (Bulletin of the American Mathematical Society, vol. 13, 1985, pp. 23-37), solving a classical problem on class numbers; Gross and Zagier for "Heegner points and derivatives of L-series" (Inventiones Mathematicae, vol. 84, 1986, pp. 225-320), connecting Heegner points to L-function derivatives.[17] |
| 1992 | Karl Rubin; Paul Vojta | Rubin for works on elliptic curves and Iwasawa theory, including "Tate-Shafarevich groups and L-functions of elliptic curves with complex multiplication," refining the Birch and Swinnerton-Dyer conjecture; Vojta for "Siegel's theorem in the compact case," extending Diophantine approximation results.[17] |
| 1997 | Andrew J. Wiles | Awarded for "Modular elliptic curves and Fermat's Last Theorem" (Annals of Mathematics, vol. 141, 1995, pp. 443-551), proving the Taniyama-Shimura conjecture for semistable elliptic curves and resolving Fermat's Last Theorem.[17] |
| 2002 | Henryk Iwaniec; Richard Taylor | Iwaniec for fundamental contributions to analytic number theory, including spectral methods for primes; Taylor for advances in algebraic number theory, particularly modular forms and Galois representations.[17] |
| 2005 | Peter Sarnak | Recognized for contributions to number theory, notably "Random Matrices, Frobenius Eigenvalues, and Monodromy" (with Nicholas Katz), exploring connections between L-functions and random matrix theory.[17] |
| 2008 | Manjul Bhargava | Awarded for revolutionary work on higher composition laws, generalizing classical results on quadratic forms and rings of integers.[17] |
| 2011 | Chandrashekhar Khare; Jean-Pierre Wintenberger | Honored for their proof of Serre's modularity conjecture, establishing modularity for odd irreducible Galois representations of dimension two.[17] |
| 2014 | Yitang Zhang; Daniel Goldston; János Pintz; Cem Yalçın Yıldırım | Zhang for "Bounded gaps between primes" (Annals of Mathematics, 2014), proving infinitely many prime pairs differing by at most 70 million; Goldston, Pintz, and Yıldırım for foundational work on small gaps between primes, including asymptotic results on prime tuples.[17] |
| 2017 | Henri Darmon | Recognized for his contributions to the arithmetic of elliptic curves and modular forms.[17] |
| 2020 | James Maynard | Awarded for contributions to prime number theory, including "Small gaps between primes" (Annals of Mathematics, 2015), "Large gaps between primes" (Annals of Mathematics, 2016), and "Primes with restricted digits" (Inventiones Mathematicae, 2019), advancing understanding of prime gaps and distributions.[17] |
| 2023 | Kaisa Matomäki; Maksym Radziwiłł; James Newton; Jack Thorne | Matomäki and Radziwiłł for "Multiplicative functions in short intervals" (Annals of Mathematics, 2016), making breakthroughs on correlations of multiplicative functions and progress toward the Chowla conjecture; Newton and Thorne for proving symmetric power functoriality for holomorphic modular forms (Publications Mathématiques de l'IHÉS, 2021), advancing the Langlands program.[17] |
| 2026 | Frank Calegari; Vesselin Dimitrov; Yunqing Tang | Awarded for "The unbounded denominators conjecture" (Journal of the American Mathematical Society), resolving a 1968 conjecture on coefficients of noncongruence modular forms.[17] |