Contents
Preface
Abbreviations
1. Basic Group Theory and Representation Theory
1.1 Definition of a Group
1.2 Some Examples
1.3 Operations within a Group
1.4 Operations with and Relations between Groups
1.5 Realisations and Representations of Groups
1.6 Group Representations
1.7 Equivalent Representations
1.8 Unitary/Orthogonal Cases β URβs
1.9 Matrices of a Representation
1.10 Some Operations with Group Representations
1.11 Character of a Representation
1.12 Invariant Subspaces, Reducibility, Irreducibility β UIRβs
1.13 Schurβs Lemma: Proof and Applications
1.14 Group Algebra
1.15 Representations of G and Its Group Algebra π½[G]
Problems
Bibliography
2. The Symmetric Group
2.1 Cycle Structure Notation
2.2 Signature of a Permutation: Alternating Subgroup
2.3 Conjugacy Classes
2.4 Young Frames and Young Tableaux
2.5 Young Subgroups of Sβ
2.6 Young Symmetrisers
2.6.1 Primitive idempotence of yt Ξ»
2.6.2 Orthogonality properties of Young symmetrisers
2.7 Irreducible Representations of Sβ
2.8 Some Useful Explicit Constructions of Representations of Sβ
Bibliography
3. Rotations in 2 and 3 Dimensions, SU(2)
3.1 The Group SO(2)
3.2 The Group O(2)
3.3 The Group SO(3)
3.4 Inclusion of Parity β The Group O(3)
3.5 The Group SU(2)
Bibliography
4. General Theory of Lie Groups and Lie Algebras
4.1 Local Coordinates, Group Composition, Inverses
4.2 Associativity as a System of (Nonlinear) PDEβs
4.3 One Parameter Subgroups, Canonical Coordinates of First Kind
4.4 Integrability Conditions, Passage to the Lie Algebra
4.5 Lie Algebras
4.6 Local Reconstruction of G from G
4.7 General Remarks on the G βG Relationship, Some Definitions Concerning Lie Algebras
4.8 Representations of Lie Algebras β A Brief Look
4.9 The Adjoint Representation
4.10 Summary
Problems
Bibliography
5. Compact Simple Lie Algebras β Classification and Irreducible Representations
5.1 From a Real Lie Algebra to Its Complexification
5.2 Properties of Roots and Root Space
5.3 The SO(2l) Family D_π΅
5.4 The SO(2l +1) Family B_π
5.5 The USp(2l) Family C_π
5.6 The SU(l +1) Family A_π
5.7 The Exceptional Groups
5.8 Representations of CSLAβs
5.9 Survey of UIRβs, Fundamental UIRβs, Elementary UIRβs
5.10 The General UIR {Nπͺ}, Its Construction, Internal Structure, Reality
5.11 Orthogonality and Completeness of UIR Matrix Elements
Problems
Bibliography
6. Spinor Representations of the Orthogonal Groups
6.1 Spinor UIRβs for D_π = SO(2l)
6.2 Spinor UIR for B_π = SO(2l +1)
6.3 Conjugation Properties of Spinor UIRβs
6.4 Combined Results for D_π and B_π
6.5 Some Properties of Antisymmetric Tensors
Problems
Bibliography
7. Properties of Some Reducible Group Representations, and Systems of Generalised Coherent States
7.1 The Schwinger Representation of a Group
7.2 Induced Representations on Coset Spaces, the Reciprocity Theorem
7.3 Generalised Coherent State Systems
Problems
Bibliography
8. Structure and Some Properties and Applications of the Groups ππ(2π,β)
8.1 The Group ππ(2,β)
8.2 The Group ππ(2π,β)
8.3 Quantum Variance Matrices, ππ(2π,β) Invariant Uncertainty Principles
8.4 SO(2l) Spinor UIRβs and Metaplectic UR of ππ(2π,β) β A Comparison
Problems
Bibliography
9. Wignerβs Theorem, Ray Representations and Neutral Elements
9.1 Hilbert and Ray Space Descriptions of Pure Quantum States
9.2 Wigner Symmetry and UnitaryβAntiunitary Theorem
9.3 Proofs of Wignerβs Theorem
9.4 Applications to Quantum Mechanics β Ray Representations and Neutral Elements
9.5 Neutral Elements in Classical Mechanics
Problems
Bibliography
10. Groups Related to Spacetime
10.1 SO(3) and SU(2)
10.2 The Euclidean Group E(3)
10.3 The Galilei Group π’
10.4 Homogeneous Lorentz Group SO(3,1), and SL(2,β)
10.5 The PoincarΓ© Group P
Problems
Bibliography
Index
A-D
E-L
M-S
T-Y