Sugawara Operators for Classical Lie Algebras

Description

The celebrated Schur-Weyl duality gives rise to effective ways of constructing invariant polynomials on the classical Lie algebras. The emergence of the theory of quantum groups in the 1980s brought up special matrix techniques which allowed one to extend these constructions beyond polynomial invariants and produce new families of Casimir elements for finite-dimensional Lie algebras. Sugawara operators are analogs of Casimir elements for the affine Kac-Moody algebras. The goal of this book is to describe algebraic structures associated with the affine Lie algebras, including affine vertex algebras, Yangians, and classical -algebras, which have numerous ties with many areas of mathematics and mathematical physics, including modular forms, conformal field theory, and soliton equations. An affine version of the matrix technique is developed and used to explain the elegant constructions of Sugawara operators, which appeared in the last decade. An affine analogue of the Harish-Chandra isomorphism connects the Sugawara operators with the classical -algebras, which play the role of the Weyl group invariants in the finite-dimensional theory.

Get the book

Amazon.com

Search the book

eBay.com

Search the book

Similar books

• 

  On Non-Generic Finite Subgroups of Exceptional Algebraic Groups

  By Alastair J. Litterick

  MR1367085 [53] M. W. Liebeck and G. M. Seitz, Maximal subgroups of exceptional groups of Lie type, ... MR1717629 [58] M. W. Liebeck and G. M. Seitz, The maximal subgroups of positive dimension in ex- ceptional algebraic groups, Mem.

• 

  Interactions of Quantum Affine Algebras with Cluster Algebras, Current Algebras and Categorification: In Honor of Vyjayanthi Chari on the Occasion...

  By David Hernandez, Kailash C. Misra, Springer Nature

  Generalizations. In this section we generalize the Steinberg groups considered in Sect. 2. The generalization has a combinatorial aspect, 3-graded root systems and an algebraic aspect ...