John Griggs Thompson

American mathematician
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Quick Facts
Born:
October 13, 1932, Ottawa, Kansas, U.S. (age 92)
Awards And Honors:
Fields Medal (1970)

John Griggs Thompson (born October 13, 1932, Ottawa, Kansas, U.S.) is an American mathematician who was awarded the Fields Medal in 1970 for his work in group theory. In 2008 the Norwegian Academy of Science and Letters awarded Thompson and Jacques Tits of France the Abel Prize for their “profound achievements in algebra and in particular for shaping modern group theory.”

Thompson earned a B.A. from Yale University in 1955 and a Ph.D. from the University of Chicago in 1959. After a year at Harvard University (1961–62), he returned to the University of Chicago (1962–68). In 1970 he moved to the University of Cambridge, England, where he stayed until 1993, when he joined the faculty at the University of Florida.

Thompson was awarded the Fields Medal at the International Congress of Mathematicians in Nice, France, in 1970. His work was largely in group theory. In 1963 he and Walter Feit published their famous theorem that every finite simple group that is not cyclic has an even number of elements—a proof requiring more than 250 pages. Because every finite group is made up of “composition factors”—building blocks that are finite simple groups—theorems about simple groups have ramifications for all finite groups. The subsequent work that resulted in Thompson’s receiving the Fields Medal was the determination of all the minimal simple finite groups—that is, those groups all of whose proper subgroups are built only of cyclic composition factors. Thompson’s revolutionary ideas inspired and permeated an effort, hitherto considered hopeless, to determine all the finite simple groups. The solution of this problem, the so-called “Enormous Theorem,” was announced in 1981 and represents the combined efforts of hundreds of mathematicians in separate journal articles consuming well over 10,000 pages. Thompson made further contributions to Galois theory, representation theory, coding theory, and, working on the proof of the nonexistence of a plane of order 10, the theory of finite projective planes.

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