Pierre Deligne

From Wikipedia, the free encyclopedia

Pierre René, Viscount Deligne (born 3 October 1944 in Brussels) is a Belgian mathematician. He is known for fundamental work on the Weil conjectures, leading finally to a complete proof in 1973. He was born in Brussels, and studied at the Universite Libre de Bruxelles (ULB).

After completing a doctorate, he worked with Alexander Grothendieck at the Institut des Hautes Études Scientifiques (IHÉS) near Paris, initially on the generalisation within scheme theory of Zariski's main theorem. He worked closely with Jean-Pierre Serre, leading to important results on the l-adic representations attached to modular forms, and the conjectural functional equations of L-functions. He also collaborated with David Mumford on a new description of the moduli spaces for curves: this work has been much used in later developments arising from string theory.

From 1970 until 1984, when he moved to the Institute for Advanced Study in Princeton, Deligne was a permanent member of the IHÉS staff. During this time he did much important work, besides the proof of the Weil conjectures: in particular with George Lusztig on the use of étale cohomology to construct representations of finite groups of Lie type, and with Rapoport on the moduli spaces from the 'fine' arithmetic point of view, with application to modular forms. He received a Fields Medal in 1978.

In terms of the completion of some of the underlying Grothendieck program of research, he defined absolute Hodge cycles, as a surrogate for the missing and still largely conjectural theory of motives. This idea allows one to get around the lack of knowledge of the Hodge conjecture, for some applications. He reworked the tannakian category theory in his paper for the Grothendieck Festschrift, employing Beck's theorem – the Tannakian category concept being the categorical expression of the linearity of the theory of motives as the ultimate Weil cohomology. All this is part of the yoga of weights, uniting Hodge theory and the l-adic Galois representations. The Shimura variety theory is related, by the idea that such varieties should parametrize not just good (arithmetically interesting) families of Hodge structures, but actual motives. This theory isn't yet a finished product – and more recent trends have used K-theory approaches.

He was awarded the Fields Medal in 1978, the Crafoord Prize in 1988, the Balzan Prize in 2004 and the Wolf Prize in 2008.

In 2006 he was ennobled by the Belgian king as viscount.^[1]

Contents 1 Selected publications 2 See also 3 References 4 External links

[edit] Selected publications

• Deligne, Pierre (1974). "La conjecture de Weil: I". Publications Mathématiques de l'IHÉS 43: 273–307. 
• Deligne, Pierre (1980). "La conjecture de Weil: II". Publications Mathématiques de l'IHÉS 52: 137–252. 
• Deligne, Pierre; Mostow, G. Daniel (1993). Commensurabilities among Lattices in PU(1,n). Princeton, N.J.: Princeton University Press. ISBN 0691000964. 

[edit] See also

• Deligne conjecture
• Deligne-Mumford moduli space of curves
• Deligne cohomology

[edit] References

[edit] External links

• O'Connor, John J. & Robertson, Edmund F., “Pierre Deligne”, MacTutor History of Mathematics archive 
• Pierre Deligne at the Mathematics Genealogy Project

v • d • e Fields Medalists Lars Ahlfors / Jesse Douglas (1936) · Laurent Schwartz / Atle Selberg (1950) · Kunihiko Kodaira / Jean-Pierre Serre (1954) · Klaus Roth / René Thom (1958) · Lars Hörmander / John Milnor (1962) · Michael Atiyah / Paul Cohen / Alexander Grothendieck / Stephen Smale (1966) · Alan Baker / Heisuke Hironaka / Sergei Petrovich Novikov / John G. Thompson (1970) · Enrico Bombieri / David Mumford (1974) · Pierre Deligne / Charles Fefferman / Grigory Margulis / Daniel Quillen (1978) · Alain Connes / William Thurston / Shing-Tung Yau (1982) · Simon Donaldson / Gerd Faltings / Michael Freedman (1986) · Vladimir Drinfel'd / Vaughan Jones / Shigefumi Mori / Edward Witten (1990) · Efim Zelmanov / Pierre-Louis Lions / Jean Bourgain / Jean-Christophe Yoccoz (1994) · Richard Borcherds / William Timothy Gowers / Maxim Kontsevich / Curtis T. McMullen (1998) · Laurent Lafforgue / Vladimir Voevodsky (2002) · Andrei Okounkov / Grigori Perelman / Terence Tao / Wendelin Werner (2006)

v • d • e Laureates of the Wolf Prize in Mathematics Israel Gelfand / Carl L. Siegel (1978) · Jean Leray / André Weil (1979) · Henri Cartan / Andrey Kolmogorov (1980) · Lars Ahlfors / Oscar Zariski (1981) · Hassler Whitney / Mark Grigoryevich Krein (1982) · Shiing-Shen Chern / Paul Erdős (1983/4) · Kunihiko Kodaira / Hans Lewy (1984/5) · Samuel Eilenberg / Atle Selberg (1986) · Kiyoshi Itō / Peter Lax (1987) · Friedrich Hirzebruch / Lars Hörmander (1988) · Alberto Calderón / John Milnor (1989) · Ennio de Giorgi / Ilya Pyatetskii-Shapiro (1990) · Lennart Carleson / John G. Thompson (1992) · Mikhail Gromov / Jacques Tits (1993) · Jürgen Moser (1994/5) · Robert Langlands / Andrew Wiles (1995/6) · Joseph Keller / Yakov G. Sinai (1996/7) · László Lovász / Elias M. Stein (1999) · Raoul Bott / Jean-Pierre Serre (2000) · Vladimir Arnold / Saharon Shelah (2001) · Mikio Sato / John Tate (2002/3) · Grigory Margulis / Sergei Petrovich Novikov (2005) · Stephen Smale / Hillel Furstenberg (2006/7) · Pierre Deligne / Phillip A. Griffiths / David B. Mumford (2008) Agriculture · Arts · Chemistry · Mathematics · Medicine · Physics