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Thomas Schick

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German mathematician
Thomas Schick
Schick in Oberwolfach, Germany 2012
Born (1969-05-22) May 22, 1969 (age 55)
Alzey, Germany
NationalityGerman
Occupation
  • Mathematician

Thomas Schick (born 22 May 1969 in Alzey) is a German mathematician, specializing in algebraic topology and differential geometry.

Education and career

Schick studied mathematics and physics at the Johannes Gutenberg University Mainz, where he received in 1994 his Diplom in mathematics and in 1996 his PhD (Promotion) under the supervision of Wolfgang Lück with thesis Analysis on Manifolds of Bounded Geometry, Hodge-deRham Isomorphism and L 2 {\displaystyle L^{2}} -Index Theorem. As a postdoc he was from 1996 to 1998 at the University of Münster and from 1998 to 2000 an assistant professor at Pennsylvania State University, where he worked with Nigel Higson and John Roe. Schick received his habilitation in 2000 from the University of Münster and is since 2001 a professor for pure mathematics at the University of Göttingen.

His research deals with topological invariants, e.g. L 2 {\displaystyle L^{2}} -invariants and those invariants which result from the K-theory of operator algebras. Such invariants arise in generalizations of the Atiyah-Singer index theorem.

Schick, with Wolfgang Lück, introduced the strong Atiyah conjecture. Given a discrete group G, the Atiyah conjecture states that the L 2 {\displaystyle L^{2}} -Betti numbers of a finite CW-complex that has fundamental group G are integers, provided that G is torsion-free; furthermore, in the general case, the L 2 {\displaystyle L^{2}} -Betti numbers are rational numbers with denominators determined by the finite subgroups of G. In 2007 Schick, with Peter Linnell, proved a theorem which established conditions under which the Atiyah conjecture for a torsion-free group G implies the Atiyah conjecture for every finite extension of G; furthermore, they proved that the conditions are satisfied for a certain class of groups. In 2000 Schick proved the Atiyah conjecture for a large class of special cases. In 2007 he presented a method which proved the Baum-Connes conjecture for the full braid groups, and for other classes of groups which arise as (finite) extensions for which the Baum-Connes conjecture is known to be true.

In the 1990s there were proofs of many special cases of the Gromov-Lawson-Rosenberg conjecture concerning criteria for the existence of a metric with positive scalar curvature; in 1997 Schick published the first counterexample.

He is the coordinator of the Courant Research Center's Strukturen höherer Ordnung in der Mathematik (Structures of Higher Order in Mathematics) at the University of Göttingen. A major goal of the research center is the investigation of mathematical structures that could play a role in modern theoretical physics, especially string theory and quantum gravity.

He was the managing editor for Mathematische Annalen. In 2014 he was an invited speaker with talk The topology of scalar curvature at the International Congress of Mathematicians in Seoul. In 2016 he became a full member of the Göttingen Academy of Sciences and Humanities.

Selected publications

References

  1. Thomas Schick at the Mathematics Genealogy Project
  2. Schick, T.; Linnell, P. (2007). "Finite group extensions and the Atiyah conjecture". Journal of the American Mathematical Society. 20 (4): 1003–1061. arXiv:math/0403229. Bibcode:2007JAMS...20.1003L. doi:10.1090/S0894-0347-07-00561-9. S2CID 12160184.
  3. Schick, T. (2000). "Integrality of L 2 {\displaystyle L^{2}} Betti numbers". Mathematische Annalen. 317 (4): 727–750. arXiv:math/0001101. doi:10.1007/PL00004421. S2CID 59127019.
  4. Schick, T. (2007). "Finite group extensions and the Baum-Connes conjecture". Geometry and Topology. 11 (3): 1767–1775. arXiv:math/0209165. doi:10.2140/gt.2007.11.1767. arXiv preprint
  5. "Thomas Schick: Finite group extensions and the Baum-Connes conjecture". Schick's website at the University of Gôttingen (uni-math.gwdg.de).
  6. Schick, T. (1998). "A counterexample to the (unstable) Gromov-Lawson-Rosenberg conjecture". Topology. 37 (6): 1165–1168. arXiv:math/0403063. doi:10.1016/s0040-9383(97)00082-7. arXiv preprint
  7. "Neuartige Probleme der Mathematik lösen, Göttingen, Courant Forschungszentrum". Göttinger Tageblatt. 19 May 2009.

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