The Oswald Veblen Prize in Geometry is an award granted by the American Mathematical Society for notable research in geometry or topology. It was funded in 1961 in memory of Oswald Veblen and first issued in 1964. The Veblen Prize is now worth US$5000, and is awarded every three years.
Oswald Veblen Prize in Geometry | |
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Awarded for | Notable research in geometry or topology |
Country | United States |
Presented by | American Mathematical Society (AMS) |
Reward(s) | US $5,000 |
First awarded | 1964 |
Last awarded | 2022 |
Website | www |
The first seven prize winners were awarded for works in topology. James Harris Simons and William Thurston were the first ones to receive it for works in geometry (for some distinctions, see geometry and topology).[1] As of 2020, there have been thirty-four prize recipients.
List of recipients
edit- 1964 Christos Papakyriakopoulos[2]
- 1964 Raoul Bott[2]
- 1966 Stephen Smale[2]
- 1966 Morton Brown and Barry Mazur[2]
- 1971 Robion Kirby[2]
- 1971 Dennis Sullivan[2]
- 1976 William Thurston[2]
- 1976 James Harris Simons[2]
- 1981 Mikhail Gromov[3] for:
- Manifolds of negative curvature. Journal of Differential Geometry 13 (1978), no. 2, 223–230.
- Almost flat manifolds. Journal of Differential Geometry 13 (1978), no. 2, 231–241.
- Curvature, diameter and Betti numbers. Comment. Math. Helv. 56 (1981), no. 2, 179–195.
- Groups of polynomial growth and expanding maps. Inst. Hautes Études Sci. Publ. Math. 53 (1981), 53–73.
- Volume and bounded cohomology. Inst. Hautes Études Sci. Publ. Math. 56 (1982), 5–99
- 1981 Shing-Tung Yau[3] for:
- On the regularity of the solution of the n-dimensional Minkowski problem. Comm. Pure Appl. Math. 29 (1976), no. 5, 495–516. (with Shiu-Yuen Cheng)
- On the regularity of the Monge-Ampère equation det∂2u/∂xi∂xj = F(x, u). Comm. Pure Appl. Math. 30 (1977), no. 1, 41–68. (with Shiu-Yuen Cheng)
- Calabi's conjecture and some new results in algebraic geometry. Proc. Natl. Acad. Sci. U.S.A. 74 (1977), no. 5, 1798–1799.
- On the Ricci curvature of a compact Kähler manifold and the complex Monge-Ampère equation. I. Comm. Pure Appl. Math. 31 (1978), no. 3, 339–411.
- On the proof of the positive mass conjecture in general relativity. Comm. Math. Phys. 65 (1979), no. 1, 45–76. (with Richard Schoen)
- Topology of three-dimensional manifolds and the embedding problems in minimal surface theory. Ann. of Math. (2) 112 (1980), no. 3, 441–484. (with William Meeks)
- 1986 Michael Freedman[4] for:
- The topology of four-dimensional manifolds. Journal of Differential Geometry 17 (1982), no. 3, 357–453.
- 1991 Andrew Casson[5] for:
- his work on the topology of low dimensional manifolds and specifically for the discovery of an integer valued invariant of homology three spheres whose reduction mod(2) is the invariant of Rohlin.
- 1991 Clifford Taubes[5] for:
- Self-dual Yang-Mills connections on non-self-dual 4-manifolds. Journal of Differential Geometry 17 (1982), no. 1, 139–170.
- Gauge theory on asymptotically periodic 4-manifolds. J. Differential Geom. 25 (1987), no. 3, 363–430.
- Casson's invariant and gauge theory. J. Differential Geom. 31 (1990), no. 2, 547–599.
- 1996 Richard S. Hamilton[6] for:
- The formation of singularities in the Ricci flow. Surveys in differential geometry, Vol. II (Cambridge, MA, 1993), 7–136, Int. Press, Cambridge, MA, 1995.
- Four-manifolds with positive isotropic curvature. Comm. Anal. Geom. 5 (1997), no. 1, 1–92.
- On Calabi's conjecture for complex surfaces with positive first Chern class. Invent. Math. 101 (1990), no. 1, 101–172.
- Compactness theorems for Kähler-Einstein manifolds of dimension 3 and up. J. Differential Geom. 35 (1992), no. 3, 535–558.
- A mathematical theory of quantum cohomology. J. Differential Geom. 42 (1995), no. 2, 259–367. (with Yongbin Ruan)
- Kähler-Einstein metrics with positive scalar curvature. Invent. Math. 130 (1997), no. 1, 1–37.
- 2001 Jeff Cheeger[7] for:
- Families index for manifolds with boundary, superconnections, and cones. I. Families of manifolds with boundary and Dirac operators. J. Funct. Anal. 89 (1990), no. 2, 313–363. (with Jean-Michel Bismut)
- Families index for manifolds with boundary, superconnections and cones. II. The Chern character. J. Funct. Anal. 90 (1990), no. 2, 306–354. (with Jean-Michel Bismut)
- Lower bounds on Ricci curvature and the almost rigidity of warped products. Ann. of Math. (2) 144 (1996), no. 1, 189–237. (with Tobias Colding)
- On the structure of spaces with Ricci curvature bounded below. I. J. Differential Geom. 46 (1997), no. 3, 406–480. (with Tobias Colding)
- 2001 Yakov Eliashberg[7] for:
- Combinatorial methods in symplectic geometry. Proceedings of the International Congress of Mathematicians, Vol. 1, 2 (Berkeley, Calif., 1986), 531–539, Amer. Math. Soc., Providence, RI, 1987.
- Classification of overtwisted contact structures on 3-manifolds. Invent. Math. 98 (1989), no. 3, 623–637.
- 2001 Michael J. Hopkins[7] for:
- Nilpotence and stable homotopy theory. I. Ann. of Math. (2) 128 (1988), no. 2, 207–241. (with Ethan Devinatz and Jeffrey Smith)
- The rigid analytic period mapping, Lubin-Tate space, and stable homotopy theory. Bull. Amer. Math. Soc. (N.S.) 30 (1994), no. 1, 76–86. (with Benedict Gross)
- Equivariant vector bundles on the Lubin-Tate moduli space. Topology and representation theory (Evanston, IL, 1992), 23–88, Contemp. Math., 158, Amer. Math. Soc., Providence, RI, 1994. (with Benedict Gross)
- Elliptic spectra, the Witten genus and the theorem of the cube. Invent. Math. 146 (2001), no. 3, 595–687. (with Matthew Ando and Neil Strickland)
- Nilpotence and stable homotopy theory. II. Ann. of Math. (2) 148 (1998), no. 1, 1–49. (with Jeffrey Smith)
- 2004 David Gabai[8]
- 2007 Peter Kronheimer and Tomasz Mrowka[9] for:
- The genus of embedded surfaces in the projective plane. Math. Res. Lett. 1 (1994), no. 6, 797–808.
- Embedded surfaces and the structure of Donaldson's polynomial invariants. J. Differential Geom. 41 (1995), no. 3, 573–734.
- Witten's conjecture and property P. Geom. Topol. 8 (2004), 295–310.
- 2007 Peter Ozsváth and Zoltán Szabó[9] for:
- Holomorphic disks and topological invariants for closed three-manifolds. Ann. of Math. (2) 159 (2004), no. 3, 1027–1158.
- Holomorphic disks and three-manifold invariants: properties and applications. Ann. of Math. (2) 159 (2004), no. 3, 1159–1245.
- Holomorphic disks and genus bounds. Geom. Topol. 8 (2004), 311–334.
- 2010 Tobias Colding and William Minicozzi II[10] for:
- The space of embedded minimal surfaces of fixed genus in a 3-manifold. I. Estimates off the axis for disks. Ann. of Math. (2) 160 (2004), no. 1, 27–68.
- The space of embedded minimal surfaces of fixed genus in a 3-manifold. II. Multi-valued graphs in disks. Ann. of Math. (2) 160 (2004), no. 1, 69–92.
- The space of embedded minimal surfaces of fixed genus in a 3-manifold. III. Planar domains. Ann. of Math. (2) 160 (2004), no. 2, 523–572.
- The space of embedded minimal surfaces of fixed genus in a 3-manifold. IV. Locally simply connected. Ann. of Math. (2) 160 (2004), no. 2, 573–615.
- The Calabi-Yau conjectures for embedded surfaces. Ann. of Math. (2) 167 (2008), no. 1, 211–243.
- 2010 Paul Seidel[10] for:
- A long exact sequence for symplectic Floer cohomology. Topology 42 (2003), no. 5, 1003–1063.
- The symplectic topology of Ramanujam's surface. Comment. Math. Helv. 80 (2005), no. 4, 859–881. (with Ivan Smith)
- Fukaya categories and Picard-Lefschetz theory. Zurich Lectures in Advanced Mathematics. European Mathematical Society (EMS), Zürich, 2008. viii+326 pp.
- Exact Lagrangian submanifolds in simply-connected cotangent bundles. Invent. Math. 172 (2008), no. 1, 1–27. (with Kenji Fukaya and Ivan Smith)
- Lower bounds on volumes of hyperbolic Haken 3-manifolds. With an appendix by Nathan Dunfield. J. Amer. Math. Soc. 20 (2007), no. 4, 1053–1077. (with Daniel Storm and William Thurston)
- Criteria for virtual fibering. J. Topol. 1 (2008), no. 2, 269–284.
- Residual finiteness, QCERF and fillings of hyperbolic groups. Geom. Topol. 13 (2009), no. 2, 1043–1073. (with Daniel Groves and Jason Fox Manning)
- 2013 Daniel Wise[11] for:
- Subgroup separability of graphs of free groups with cyclic edge groups. Q. J. Math. 51 (2000), no. 1, 107–129.
- The residual finiteness of negatively curved polygons of finite groups. Invent. Math. 149 (2002), no. 3, 579–617.
- Special cube complexes. Geom. Funct. Anal. 17 (2008), no. 5, 1551–1620. (with Frédéric Haglund)
- A combination theorem for special cube complexes. Ann. of Math. (2) 176 (2012), no. 3, 1427–1482. (with Frédéric Haglund)
- 2016 Fernando Codá Marques and André Neves[12][13] for:
- Min-max theory and the Willmore conjecture. Ann. of Math. (2) 179 (2014), no. 2, 683–782.
- Min-max theory and the energy of links. J. Amer. Math. Soc. 29 (2016), no. 2, 561–578. (with Ian Agol)
- Existence of infinitely many minimal hypersurfaces in positive Ricci curvature. Invent. Math. 209 (2017), no. 2, 577–616.
- 2019 Xiuxiong Chen, Simon Donaldson and Song Sun[14] for:
- Kähler-Einstein metrics on Fano manifolds. I: Approximation of metrics with cone singularities. J. Amer. Math. Soc. 28 (2015), no. 1, 183–197.
- Kähler-Einstein metrics on Fano manifolds. II: Limits with cone angle less than 2π. J. Amer. Math. Soc. 28 (2015), no. 1, 199–234.
- Kähler-Einstein metrics on Fano manifolds. III: Limits as cone angle approaches 2π and completion of the main proof. J. Amer. Math. Soc. 28 (2015), no. 1, 235–278.
- 2022 Michael A. Hill, Michael J. Hopkins, and Douglas Ravenel[15] for:
- On the nonexistence of elements of Kervaire invariant one. Annals of Mathematics SECOND SERIES, Vol. 184, No. 1 (July, 2016), pp. 1-262
See also
editReferences
edit- ^ Peter L. Duren; Richard Askey; Uta C. Merzbach, eds. (January 1989). A Century of Mathematics in America, Part II. American Mathematical Society. p. 521. ISBN 978-0-8218-0130-7.
- ^ a b c d e f g h O'Connor, John J.; Robertson, Edmund F., "Oswald Veblen Prize of the AMS", MacTutor History of Mathematics Archive, University of St Andrews
- ^ a b "Veblen Prizes for 1981" (PDF), Notices of the AMS, 28 (2): 160–164, February 1981
- ^ "Michael H. Freedman Awarded 1986 Veblen Prize" (PDF), Notices of the AMS, 33 (2): 227–228, March 1986
- ^ a b "1991 Oswald Veblen Prize in Geometry" (PDF), Notices of the AMS, 38 (3): 181–183, March 1991
- ^ a b "1996 Oswald Veblen Prize" (PDF), Notices of the AMS, 43 (3): 325–327, March 1996.
- ^ a b c "2001 Veblen Prize" (PDF), Notices of the AMS, 48 (4): 408–410, April 2001.
- ^ "2004 Veblen Prize" (PDF), Notices of the AMS, 51 (4): 426–427, April 2004.
- ^ a b "2007 Veblen Prize" (PDF), Notices of the AMS, 54 (4): 527–530, April 2007.
- ^ a b "2010 Veblen Prize" (PDF), Notices of the AMS, 57 (4): 521–523, April 2010.
- ^ a b "2013 Veblen Prize" (PDF), Notices of the AMS, 60 (4): 494–496, April 2013.
- ^ AMS News Releases, "Fernando Codá Marques and André Neves to Receive 2016 AMS Oswald Veblen Prize" (20/Nov/2015)
- ^ Kehoe, Elaine (April 2016), "2016 Oswald Veblen Prize in Geometry" (PDF), Notices of the AMS, 63 (4): 429–431, doi:10.1090/noti1358.
- ^ "2019 Oswald Veblen Prize in Geometry"
- ^ "2022 Oswald Veblen Prize in Geometry"