Daniel Quillen

Daniel Quillen
Born (1940-06-22)June 22, 1940
Orange, New Jersey
Died April 30, 2011(2011-04-30) (aged 70)
Haven Hospice,[1] North Florida
Nationality American
Fields Mathematics
Thesis Formal Properties of Over-Determined Systems of Linear Partial Differential Equations (1964)
Doctoral advisor Raoul Bott
Doctoral students Kenneth Brown
Influences Alexander Grothendieck
Jean-Pierre Serre
Notable awards Fields Medal (1978)
Cole Prize (1975)
Putnam Fellow (1959)

Daniel Gray "Dan" Quillen (June 22, 1940 – April 30, 2011) was an American mathematician.

From 1984 to 2006, he was the Waynflete Professor of Pure Mathematics at Magdalen College, Oxford. He is known for being the "prime architect" of higher algebraic K-theory, for which he was awarded the Cole Prize in 1975 and the Fields Medal in 1978.

Education and career

Quillen was born in Orange, New Jersey, and attended Newark Academy. He entered Harvard University, where he earned both his AB, in 1961, and his PhD in 1964; the latter completed under the supervision of Raoul Bott, with a thesis in partial differential equations. He was a Putnam Fellow in 1959.[2]

Quillen obtained a position at the Massachusetts Institute of Technology after completing his doctorate. However, he also spent a number of years at several other universities, including the University of Chicago as a Dickson instructor. He visited France twice: first as a Sloan Fellow in Paris, during the academic year 196869, where he was greatly influenced by Grothendieck, and then, during 1973–74, as a Guggenheim Fellow. In 1969–70, he was a visiting member of the Institute for Advanced Study in Princeton, where he came under the influence of Michael Atiyah. In 1978, Quillen received a Fields Medal at the International Congress of Mathematicians held in Helsinki.[3]

Quillen retired at the end of 2006. He died from complications of Alzheimer's disease on April 30, 2011, aged 70, in Florida.[4]

Mathematical contributions

Quillen's best known contribution (mentioned specifically in his Fields medal citation) was his formulation of higher algebraic K-theory in 1972. This new tool, formulated in terms of homotopy theory, proved to be successful in formulating and solving problems in algebra, particularly in ring theory and module theory. More generally, Quillen developed tools (especially his theory of model categories) which allowed algebro-topological tools to be applied in other contexts.

Before his work in defining higher algebraic K-theory, Quillen worked on the Adams conjecture, formulated by Frank Adams in homotopy theory.[5] His proof of the conjecture used techniques from the modular representation theory of groups, which he later applied to work on cohomology of groups and algebraic K-theory. He also worked on complex cobordism, showing that its formal group law is essentially the universal one.

In related work, he also supplied a proof of Serre's conjecture about the triviality of algebraic vector bundles on affine space, which led to the Bass–Quillen conjecture. He was also an architect (along with Dennis Sullivan) of rational homotopy theory.[6]

He introduced the Quillen determinant line bundle and the Mathai–Quillen formalism.

Selected publications

See also

References

  1. Daniel Quillen (entry posted on Sunday, May 1, 2011)
  2. "The Mathematical Association of America's William Lowell Putnam Competition". Retrieved 2013-03-28. |first2= missing |last2= in Authors list (help)
  3. http://www.mathunion.org/index.php?id=prizewinners
  4. "commalg.org: Daniel Quillen". 2011. Retrieved 05-03-2011. Check date values in: |access-date= (help)
  5. Segal, Graeme (June 23, 2011), "Daniel Quillen obituary", The Guardian
  6. Quillen, D. (1969), "Rational homotopy theory", Annals of Math, 90 (2): 205–295, doi:10.2307/1970725, JSTOR 1970725, MR 0258031

External links

This article is issued from Wikipedia - version of the 11/11/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.