Unitary Reflection Groups
Unitary Reflection Groups

Author: Gustav I. Lehrer

Publisher: Cambridge University Press

Published: 2009-08-13

Total Pages: 303

ISBN-13: 0521749891

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A unitary reflection is a linear transformation of a complex vector space that fixes each point in a hyperplane. Intuitively, it resembles the transformation an image undergoes when it is viewed through a kaleidoscope, or an arrangement of mirrors. This book gives a complete classification of all finite groups which are generated by unitary reflections, using the method of line systems. Irreducible groups are studied in detail, and are identified with finite linear groups. The new invariant theoretic proof of Steinberg's fixed point theorem is treated fully. The same approach is used to develop the theory of eigenspaces of elements of reflection groups and their twisted analogues. This includes an extension of Springer's theory of regular elements to reflection cosets. An appendix outlines links to representation theory, topology and mathematical physics. Containing over 100 exercises, ranging in difficulty from elementary to research level, this book is ideal for honours and graduate students, or for researchers in algebra, topology and mathematical physics. Book jacket.

Unitary Reflection Groups
Unitary Reflection Groups

Author: Gus Lehrer

Publisher:

Published: 2014-05-14

Total Pages: 304

ISBN-13: 9780511651182

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A complete and clear account of the classification of unitary reflection groups, which arise naturally in many areas of mathematics.

Finite Reflection Groups
Finite Reflection Groups

Author: L.C. Grove

Publisher: Springer Science & Business Media

Published: 2013-03-09

Total Pages: 142

ISBN-13: 1475718691

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Chapter 1 introduces some of the terminology and notation used later and indicates prerequisites. Chapter 2 gives a reasonably thorough account of all finite subgroups of the orthogonal groups in two and three dimensions. The presentation is somewhat less formal than in succeeding chapters. For instance, the existence of the icosahedron is accepted as an empirical fact, and no formal proof of existence is included. Throughout most of Chapter 2 we do not distinguish between groups that are "geo metrically indistinguishable," that is, conjugate in the orthogonal group. Very little of the material in Chapter 2 is actually required for the sub sequent chapters, but it serves two important purposes: It aids in the development of geometrical insight, and it serves as a source of illustrative examples. There is a discussion offundamental regions in Chapter 3. Chapter 4 provides a correspondence between fundamental reflections and funda mental regions via a discussion of root systems. The actual classification and construction of finite reflection groups takes place in Chapter 5. where we have in part followed the methods of E. Witt and B. L. van der Waerden. Generators and relations for finite reflection groups are discussed in Chapter 6. There are historical remarks and suggestions for further reading in a Post lude.

Introduction to Complex Reflection Groups and Their Braid Groups
Introduction to Complex Reflection Groups and Their Braid Groups

Author: Michel Broué

Publisher: Springer

Published: 2010-01-28

Total Pages: 150

ISBN-13: 3642111750

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This book covers basic properties of complex reflection groups, such as characterization, Steinberg theorem, Gutkin-Opdam matrices, Solomon theorem and applications, including the basic findings of Springer theory on eigenspaces.