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Notes on Coxeter Transformations and the McKay Correspondence [electronic resource]/ by Rafael Stekolshchik.

By: Contributor(s): Series: Springer Monographs in MathematicsPublication details: Berlin, Heidelberg: Springer Berlin Heidelberg, 2008.Description: digitalISBN:
  • 9783540773993
Subject(s): Additional physical formats: Printed edition:: No titleDDC classification:
  • 512.44
Online resources:
Contents:
Introduction -- Preliminaries -- The Jordan normal form of the Coxeter transformation -- Eigenvalues, splitting formulas and diagrams Tp,q r -- R. Steinberg's theorem, B. Kostant's construction. - The affine Coxeter transformation -- A. The McKay correspondence and the Slodowy correspondence -- B. Regularity conditions for representations of quivers -- C. Miscellanea -- References -- Index .
In: Springer eBooksSummary: One of the beautiful results in the representation theory of the finite groups is McKay's theorem on a correspondence between representations of the binary polyhedral group of SU(2) and vertices of an extended simply-laced Dynkin diagram. The Coxeter transformation is the main tool in the proof of the McKay correspondence, and is closely interrelated with the Cartan matrix and Poincaré series. The Coxeter functors constructed by Bernstein, Gelfand and Ponomarev plays a distinguished role in the representation theory of quivers. On these pages, the ideas and formulas due to J. N. Bernstein, I. M. Gelfand and V. A. Ponomarev, H.S.M. Coxeter, V. Dlab and C.M. Ringel, V. Kac, J. McKay, T.A. Springer, B. Kostant, P. Slodowy, R. Steinberg, W. Ebeling and several other authors, as well as the author and his colleagues from Subbotin's seminar, are presented in detail. Several proofs seem to be new .
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Introduction -- Preliminaries -- The Jordan normal form of the Coxeter transformation -- Eigenvalues, splitting formulas and diagrams Tp,q r -- R. Steinberg's theorem, B. Kostant's construction. - The affine Coxeter transformation -- A. The McKay correspondence and the Slodowy correspondence -- B. Regularity conditions for representations of quivers -- C. Miscellanea -- References -- Index .

One of the beautiful results in the representation theory of the finite groups is McKay's theorem on a correspondence between representations of the binary polyhedral group of SU(2) and vertices of an extended simply-laced Dynkin diagram. The Coxeter transformation is the main tool in the proof of the McKay correspondence, and is closely interrelated with the Cartan matrix and Poincaré series. The Coxeter functors constructed by Bernstein, Gelfand and Ponomarev plays a distinguished role in the representation theory of quivers. On these pages, the ideas and formulas due to J. N. Bernstein, I. M. Gelfand and V. A. Ponomarev, H.S.M. Coxeter, V. Dlab and C.M. Ringel, V. Kac, J. McKay, T.A. Springer, B. Kostant, P. Slodowy, R. Steinberg, W. Ebeling and several other authors, as well as the author and his colleagues from Subbotin's seminar, are presented in detail. Several proofs seem to be new .

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