Historically, operator theory and representation theory both originated with the advent of quantum mechanics. The interplay between the subjects has been and still is active in a variety of areas. This volume focuses on representations of the universal enveloping algebra, covariant representations in general, and infinite-dimensional Lie algebras in particular. It also provides new applications of recent results on integrability of finite-dimensional Lie algebras. As a central theme, it is shown that a number of recent developments in operator algebras may be handled in a particularly elegant manner by the use of Lie algebras, extensions, and projective representations. In several cases, this Lie algebraic approach to questions in mathematical physics and C * -algebra theory is new; for example, the Lie algebraic treatment of the spectral theory of curved magnetic field Hamiltonians, the treatment of irrational rotation type algebras, and the Virasoro algebra. Also examined are C * -algebraic methods used (in non-traditional ways) in the study of representations of infinite-dimensional Lie algebras and their extensions, and the methods developed by A. Connes and M.A.
Author(s): Palle E.T. Jorgensen (Eds.)
Series: Notas de matematica 120 North-Holland mathematics studies 147
Publisher: North-Holland
Year: 1988
Language: English
Pages: ii-vi, 1-337
City: Amsterdam; New York :, New York, N.Y., U.S.A
Content:
Edited by
Pages ii-iii
Copyright page
Page iv
Preface
Page v
Acknowledgements
Page vi
Chapter 1. Introduction and Overview
Pages 1-2
Chapter 2. Definitions and Terminology
Pages 3-10
Chapter 3. Operators in Hilbert Space
Pages 11-20
Chapter 4. The Imprimitivity Theorem
Pages 21-36
Chapter 5. Domains of Representations
Pages 37-69
Chapter 6. Operators in the Enveloping Algebra
Pages 71-122
Chapter 7. Spectral Theory
Pages 123-163
Chapter 8. Infinite-Dimensional Lie Algebras
Pages 165-269
Appendix: Integrability of Lie Algebras
Pages 271-284
References
Pages 285-329
Index
Pages 331-337