Simon Donaldson

Simon Donaldson
Simon Donaldson
Born	Simon Kirwan Donaldson; 20 August 1957; Cambridge, England
Nationality	British
Alma mater	Worcester College, Oxford; Pembroke College, Cambridge
Known for	Topology of smooth (differentiable) four-dimensional manifolds; Donaldson theory; Donaldson theorem
Awards	Junior Whitehead Prize (1985); Fields Medal (1986); Royal Medal (1992); Crafoord Prize (1994); Pólya Prize (1999); King Faisal International Prize (2006); Nemmers Prize in Mathematics (2008); Shaw Prize in Mathematics (2009); Breakthrough Prize in Mathematics (2014)
	Scientific career
Fields	Mathematics
Institutions	Imperial College London; Stony Brook University; Institute for Advanced Study; Stanford University; All Souls College, Oxford
Thesis	The Yang-Mills Equations on Kähler Manifolds (1983)
Doctoral advisor	Michael Atiyah; Nigel Hitchin
Doctoral students	Dominic Joyce; Graham Nelson; Paul Seidel; Richard Thomas

Sir Simon Kirwan Donaldson FRS (born 20 August 1957), is an English mathematician known for his work on the topology of smooth (differentiable) four-dimensional manifolds and Donaldson–Thomas theory. He is currently a permanent member of the Simons Center for Geometry and Physics at Stony Brook University^[1] and a Professor in Pure Mathematics at Imperial College London.

Biography

Donaldson's father was an electrical engineer in the physiology department at the University of Cambridge, and his mother earned a science degree there.^[2] Donaldson gained a BA degree in mathematics from Pembroke College, Cambridge in 1979, and in 1980 began postgraduate work at Worcester College, Oxford, at first under Nigel Hitchin and later under Michael Atiyah's supervision. Still a postgraduate student, Donaldson proved in 1982 a result that would establish his fame. He published the result in a paper "Self-dual connections and the topology of smooth 4-manifolds" which appeared in 1983. In the words of Atiyah, the paper "stunned the mathematical world" (Atiyah 1986).

Whereas Michael Freedman classified topological four-manifolds, Donaldson's work focused on four-manifolds admitting a differentiable structure, using instantons, a particular solution to the equations of Yang–Mills gauge theory which has its origin in quantum field theory. One of Donaldson's first results gave severe restrictions on the intersection form of a smooth four-manifold. As a consequence, a large class of the topological four-manifolds do not admit any smooth structure at all. Donaldson also derived polynomial invariants from gauge theory. These were new topological invariants sensitive to the underlying smooth structure of the four-manifold. They made it possible to deduce the existence of "exotic" smooth structures—certain topological four-manifolds could carry an infinite family of different smooth structures.

After gaining his DPhil degree from Oxford University in 1983, Donaldson was appointed a Junior Research Fellow at All Souls College, Oxford, he spent the academic year 1983–84 at the Institute for Advanced Study in Princeton, and returned to Oxford as Wallis Professor of Mathematics in 1985. After spending one year visiting Stanford University,^[3] he moved to Imperial College London in 1998.

In 2014, he joined the Simons Center for Geometry and Physics at Stony Brook University in New York, United States.^[1]

Awards and honours

Donaldson received the Junior Whitehead Prize from the London Mathematical Society in 1985 and in the following year he was elected a Fellow of the Royal Society and, also in 1986, he received a Fields Medal. He was awarded the 1994 Crafoord Prize.

In February 2006, Donaldson was awarded the King Faisal International Prize for science for his work in pure mathematical theories linked to physics, which have helped in forming an understanding of the laws of matter at a subnuclear level.

In April 2008, he was awarded the Nemmers Prize in Mathematics, a mathematics prize awarded by Northwestern University.

In 2009 he was awarded the Shaw Prize in Mathematics (jointly with Clifford Taubes) for their contributions to geometry in 3 and 4 dimensions.

In 2010, he was elected a foreign member of the Royal Swedish Academy of Sciences.^[4]

Donaldson was knighted in the 2012 New Year Honours for services to mathematics.^[5]

In 2012 he became a fellow of the American Mathematical Society.^[6]

In March 2014, he was awarded the degree "Docteur Honoris Causa" by Université Joseph Fourier, Grenoble.

In 2014 he was awarded the Breakthrough Prize in Mathematics "for the new revolutionary invariants of 4-dimensional manifolds and for the study of the relation between stability in algebraic geometry and in global differential geometry, both for bundles and for Fano varieties."^[7]

In January 2017, he was awarded the degree "DOCTOR HONORIS CAUSA" by the Universidad Complutense de Madrid, Spain.

Donaldson's work

Donaldson's work is on the application of mathematical analysis (especially the analysis of elliptic partial differential equations) to problems in geometry. The problems mainly concern 4-manifolds, complex differential geometry and symplectic geometry. The following theorems have been mentioned:

The diagonalizability theorem (Donaldson 1983a, 1983b, 1987a): If the intersection form of a smooth, closed, simply connected 4-manifold is positive- or negative-definite then it is diagonalizable over the integers. This result is sometimes called Donaldson's theorem.
A smooth h-cobordism between simply connected 4-manifolds need not be trivial (Donaldson 1987b). This contrasts with the situation in higher dimensions.
A stable holomorphic vector bundle over a non-singular projective algebraic variety admits a Hermitian–Einstein metric (Donaldson 1987c). (Another proof of a somewhat more general result was given by Uhlenbeck & Yau (1986).)
A non-singular, projective algebraic surface can be diffeomorphic to the connected sum of two oriented 4-manifolds only if one of them has negative-definite intersection form (Donaldson 1990). This was an early application of the Donaldson invariant (or instanton invariants).
Any compact symplectic manifold admits a symplectic Lefschetz pencil (Donaldson 1999).

Donaldson's recent work centers on a problem in complex differential geometry concerning a conjectural relationship between algebro-geometric "stability" conditions for smooth projective varieties and the existence of "extremal" Kähler metrics, typically those with constant scalar curvature (see for example cscK metric). Donaldson obtained results in the toric case of the problem (see for example Donaldson (2001)). He then solved the Kähler-Einstein case of the problem in 2012, in collaboration with Chen and Sun. This latest spectacular achievement involved a number of difficult and technical papers. The first of these was the paper of Donaldson & Sun (2014) on Gromov-Hausdorff limits. The summary of the existence proof for Kähler-Einstein metrics appears in Chen, Donaldson & Sun (2014). Full details of the proofs appear in Chen, Donaldson, and Sun (2015a, 2015b, 2015c).

Selected publications

Donaldson, Simon K. (1983a). "An application of gauge theory to four-dimensional topology". J. Differential Geom. 18 (2): 279–315. MR 0710056.
——— (1983b). "Self-dual connections and the topology of smooth 4-manifolds". Bull. Amer. Math. Soc. 8 (1): 81–83. doi:10.1090/S0273-0979-1983-15090-5. MR 0682827.
——— (1984b). "Instantons and geometric invariant theory". Comm. Math. Phys. 93 (4): 453–460. Bibcode:1984CMaPh..93..453D. doi:10.1007/BF01212289. MR 0892034.
——— (1987a). "The orientation of Yang-Mills moduli spaces and 4-manifold topology". J. Differential Geom. 26 (3): 397–428. MR 0910015.
——— (1987b). "Irrationality and the h-cobordism conjecture". J. Differential Geom. 26 (1): 141–168. MR 0892034.
——— (1987c). "Infinite determinants, stable bundles and curvature". Duke Math. J. 54 (1): 231–247. doi:10.1215/S0012-7094-87-05414-7. MR 0885784.
——— (1990). "Polynomial invariants for smooth four-manifolds". Topology. 29 (3): 257–315. doi:10.1016/0040-9383(90)90001-Z. MR 1066174.
——— (1999). "Lefschetz pencils on symplectic manifolds". J. Differential Geom. 53 (2): 205–236. MR 1802722.
——— (2001). "Scalar curvature and projective embeddings. I". J. Differential Geom. 59 (3): 479–522. MR 1916953.
——— (2011). Riemann surfaces. Oxford Graduate Texts in Mathematics. 22. Oxford: Oxford University Press. doi:10.1093/acprof:oso/9780198526391.001.0001. ISBN 978-0-19-960674-0. MR 2856237. ^[8]
——— & Kronheimer, Peter B. (1990). The geometry of four-manifolds. Oxford Mathematical Monographs. New York: Oxford University Press. ISBN 0-19-853553-8. MR 1079726. ^[9]
———; Sun, Song (2014). "Gromov-Hausdorff limits of Kähler manifolds and algebraic geometry". Acta Math. 213 (1): 63–106. arXiv:1206.2609. doi:10.1007/s11511-014-0116-3. MR 3261011.
Chen, Xiuxiong; Donaldson, Simon; Sun, Song (2014). "Kähler-Einstein metrics and stability". Int. Math. Res. Notices. 8: 2119–2125. arXiv:1210.7494. doi:10.1093/imrn/rns279. MR 3194014.
Chen, Xiuxiong; Donaldson, Simon; Sun, Song (2015a). "Kähler-Einstein metrics on Fano manifolds I: Approximation of metrics with cone singularities". J. Amer. Math. Soc. 28 (1): 183–197. arXiv:1211.4566. doi:10.1090/S0894-0347-2014-00799-2. MR 3264766.
Chen, Xiuxiong; Donaldson, Simon; Sun, Song (2015b). "Kähler-Einstein metrics on Fano manifolds II: Limits with cone angle less than 2π". J. Amer. Math. Soc. 28 (1): 199–234. arXiv:1212.4714. doi:10.1090/S0894-0347-2014-00800-6. MR 3264767.
Chen, Xiuxiong; Donaldson, Simon; Sun, Song (2015c). "Kähler-Einstein metrics on Fano manifolds III: Limits as cone angle approaches 2π and completion of the main proof". J. Amer. Math. Soc. 28 (1): 235–278. arXiv:1302.0282. doi:10.1090/S0894-0347-2014-00801-8. MR 3264768.

Notes

1 2 "Simon Donaldson, Simons Center for Geometry and Physics".
↑ Simon Donaldson Autobiography, The Shaw Prize, 2009
↑ Biography at DeBretts Archived 20 June 2013 at the Wayback Machine.
↑ New foreign members elected to the academy, press announcement from the Royal Swedish Academy of Sciences 2010-05-26
↑ "No. 60009". The London Gazette (Supplement). 31 December 2011. p. 1.
↑ List of Fellows of the American Mathematical Society, retrieved 2012-11-10.
↑ , retrieved 2014-06-26.
↑ Kra, Irwin (2012). "Review: Riemann surfaces, by S. K. Donaldson". Bull. Amer. Math. Soc. (N.S.). 49 (3): 455–463. doi:10.1090/s0273-0979-2012-01375-7.
↑ Hitchin, Nigel (1993). "Review: The geometry of four-manifolds, by S. K. Donaldson and P. B. Kronheimer". Bull. Amer. Math. Soc. (N.S.). 28 (2): 415–418. doi:10.1090/s0273-0979-1993-00377-x.

References

Atiyah, M. (1986). "On the work of Simon Donaldson". Proceedings of the International Congress of Mathematicians.
Uhlenbeck, Karen & Yau, Shing-Tung (1986). "On the existence of Hermitian-Yang-Mills connections in stable vector bundles". Comm. Pure Appl. Math. 39 (S, suppl.): S257–S293. doi:10.1002/cpa.3160390714. MR 0861491.

External links

O'Connor, John J.; Robertson, Edmund F., "Simon Donaldson", MacTutor History of Mathematics archive, University of St Andrews .
Simon Donaldson at the Mathematics Genealogy Project
Home page at Imperial College
"Some recent developments in Kähler geometry and exceptional holonomy - Simon Donaldson - ICM2018". YouTube. (Plenary Lecture 1)

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.

[scgp.stonybrook.edu-1] 1 2 "Simon Donaldson, Simons Center for Geometry and Physics".

[2] Simon Donaldson Autobiography, The Shaw Prize, 2009

[3] Biography at DeBretts Archived 20 June 2013 at the Wayback Machine.

[kva-4] New foreign members elected to the academy, press announcement from the Royal Swedish Academy of Sciences 2010-05-26

[5] "No. 60009". The London Gazette (Supplement). 31 December 2011. p. 1.

[6] List of Fellows of the American Mathematical Society, retrieved 2012-11-10.

[7] , retrieved 2014-06-26.

[8] Kra, Irwin (2012). "Review: Riemann surfaces, by S. K. Donaldson". Bull. Amer. Math. Soc. (N.S.). 49 (3): 455–463. doi:10.1090/s0273-0979-2012-01375-7.

[9] Hitchin, Nigel (1993). "Review: The geometry of four-manifolds, by S. K. Donaldson and P. B. Kronheimer". Bull. Amer. Math. Soc. (N.S.). 28 (2): 415–418. doi:10.1090/s0273-0979-1993-00377-x.

Shaw Prize laureates
Astronomy	Jim Peebles (2004) Geoffrey Marcy and Michel Mayor (2005) Saul Perlmutter, Adam Riess and Brian Schmidt (2006) Peter Goldreich (2007) Reinhard Genzel (2008) Frank Shu (2009) Charles Bennett, Lyman Page and David Spergel (2010) Enrico Costa and Gerald Fishman (2011) David Jewitt and Jane Luu (2012) Steven Balbus and John Hawley (2013) Daniel Eisenstein, Shaun Cole and John Peacock (2014) William Borucki (2015) Ronald Drever, Kip Thorne and Rainer Weiss (2016) Simon White (2017) Jean-Loup Puget (2018)
Life science and medicine	Stanley Norman Cohen, Herbert Boyer, Kan Yuet-wai and Richard Doll (2004) Michael Berridge (2005) Xiaodong Wang (2006) Robert Lefkowitz (2007) Ian Wilmut, Keith Campbell and Shinya Yamanaka (2008) Douglas Coleman and Jeffrey Friedman (2009) David Julius (2010) Jules Hoffmann, Ruslan Medzhitov and Bruce Beutler (2011) Franz-Ulrich Hartl and Arthur Horwich (2012) Jeffrey Hall, Michael Rosbash and Michael Young (2013) Kazutoshi Mori and Peter Walter (2014) Bonnie Bassler and Everett Peter Greenberg (2015) Adrian Bird and Huda Zoghbi (2016) Ian R. Gibbons and Ronald Vale (2017) Mary-Claire King (2018)
Mathematical science	Shiing-Shen Chern (2004) Andrew Wiles (2005) David Mumford and Wu Wenjun (2006) Robert Langlands and Richard Taylor (2007) Vladimir Arnold and Ludvig Faddeev (2008) Simon Donaldson and Clifford Taubes (2009) Jean Bourgain (2010) Demetrios Christodoulou and Richard S. Hamilton (2011) Maxim Kontsevich (2012) David Donoho (2013) George Lusztig (2014) Gerd Faltings and Henryk Iwaniec (2015) Nigel Hitchin (2016) János Kollár and Claire Voisin (2017) Luis A. Caffarelli (2018)

Breakthrough Prize laureates
Fundamental physics	Nima Arkani-Hamed, Alan Guth, Alexei Kitaev, Maxim Kontsevich, Andrei Linde, Juan Maldacena, Nathan Seiberg, Ashoke Sen, Edward Witten (2012) Special: Stephen Hawking, Peter Jenni, Fabiola Gianotti (ATLAS), Michel Della Negra, Tejinder Virdee, Guido Tonelli, Joseph Incandela (CMS) and Lyn Evans (LHC) (2013) Alexander Polyakov (2013) Michael Green and John Henry Schwarz (2014) Saul Perlmutter and members of the Supernova Cosmology Project; Brian Schmidt, Adam Riess and members of the High-Z Supernova Team (2015) Special: Ronald Drever, Kip Thorne, Rainer Weiss and contributors to LIGO project (2016) Yifang Wang and Kam-Biu Luk and the Daya Bay team, Atsuto Suzuki and the KamLAND team, Kōichirō Nishikawa and the K2K / T2K team, Arthur B. McDonald and the Sudbury Neutrino Observatory team, Takaaki Kajita and Yōichirō Suzuki and the Super-Kamiokande team (2016) Joseph Polchinski, Andrew Strominger, Cumrun Vafa (2017) Charles L. Bennett, Gary Hinshaw, Norman Jarosik, Lyman Page Jr., David Spergel (2018) Special: Jocelyn Bell Burnell (2018) Charles Kane and Eugene Mele (2019)
Life sciences	Cornelia Bargmann, David Botstein, Lewis C. Cantley, Hans Clevers, Titia de Lange, Napoleone Ferrara, Eric Lander, Charles Sawyers, Robert Weinberg, Shinya Yamanaka and Bert Vogelstein (2013) James P. Allison, Mahlon DeLong, Michael N. Hall, Robert S. Langer, Richard P. Lifton and Alexander Varshavsky (2014) Alim-Louis Benabid, Charles David Allis, Victor Ambros, Gary Ruvkun, Jennifer Doudna and Emmanuelle Charpentier (2015) Edward Boyden, Karl Deisseroth, John Hardy, Helen Hobbs and Svante Pääbo (2016) Stephen J. Elledge, Harry F. Noller, Roeland Nusse, Yoshinori Ohsumi, Huda Zoghbi (2017) Joanne Chory, Peter Walter, Kazutoshi Mori, Kim Nasmyth, Don W. Cleveland (2018) C. Frank Bennett and Adrian R. Krainer, Angelika Amon, Xiaowei Zhuang, Zhijian Chen (2019)
Mathematics	Simon Donaldson, Maxim Kontsevich, Jacob Lurie, Terence Tao and Richard Taylor (2015) Ian Agol (2016) Jean Bourgain (2017) Christopher Hacon, James McKernan (2018) Vincent Lafforgue (2019)

Fellows of the Royal Society elected in 1986
Fellows	Roy M. Anderson John Argyris Ian Axford Alec Broers Geoffrey Burnstock Dennis Chapman John Clarke Peter Day Richard Dixon Simon Donaldson John Dowell John M. Edmond Peter Fellgett Martin Fleischmann C. Robin Ganellin Adrian Gill John Rodney Guest Gabriel Horn Werner Israel Alec Jeffreys Allen Kerr Chris J. Leaver George Lorimer Thomas Nelson Marsham William Mitchell Keith Moffatt Michael Augustine Raftery Vulimiri Ramalingaswami Peter Richardson Harold Ridley Raymond Smallman Michael Smith Charles James Matthew Stirling John Sulston Jean Thomas David Wallace Elizabeth Warrington Allan Wilson Gordon Richard Wray
Foreign	Piet Borst Albert Eschenmoser Antonio Garcia-Bellido Joseph Keller Edwin H. Land Shosaku Numa Vivian Fuchs
Statute 12	Roger Makins, 1st Baron Sherfield

Simon Donaldson

Born	Simon Kirwan Donaldson (1957-08-20) 20 August 1957 Cambridge, England
Nationality	British
Alma mater	Worcester College, Oxford Pembroke College, Cambridge
Known for	Topology of smooth (differentiable) four-dimensional manifolds Donaldson theory Donaldson theorem
Awards	Junior Whitehead Prize (1985) Fields Medal (1986) Royal Medal (1992) Crafoord Prize (1994) Pólya Prize (1999) King Faisal International Prize (2006) Nemmers Prize in Mathematics (2008) Shaw Prize in Mathematics (2009) Breakthrough Prize in Mathematics (2014)
Scientific career
Fields	Mathematics
Institutions	Imperial College London Stony Brook University Institute for Advanced Study Stanford University All Souls College, Oxford
Thesis	The Yang-Mills Equations on Kähler Manifolds (1983)
Doctoral advisor	Michael Atiyah Nigel Hitchin
Doctoral students	Dominic Joyce Graham Nelson Paul Seidel Richard Thomas