Part Ⅰ. Many-Body Systems and Classical Field Theory.
1. Classical and Quantum Mechanics of Particle Systems
1.1 Introduction
1.2 Classical Mechanics of Mass Points
1.3 Quantum Mechanics: The Harmonic Oscillator
1.4 The Linear Chain (Classical Treatment)
1.5 The Linear Chain (Quantum Treatment)
2. Classical Field Theory
2.1 Introductio
2.2 The Hamilton Formalism
2.3 Functional Derivatives
2.4 Conservation Laws in Classical Field Theories
2.5 The Generators of the Poincare Group
Part Ⅱ. Canonical Quantization
3. Nonrelativistic Quantum Field Theory
3.1 Introduction
3.2 Quantization Rules for Bose Particles
3.3 Quantization Rules for Fermi Particles
4. Spin-0 Fields: The Klein-Gordon Equation
4.1 The Neutral Klein-Gordon Field
4.2 The Charged Klein-Gordon Field
4.3 Symmetry Transformations
4.4 The Invariant Commutaion Relations
4.5 The Scalar Feynman Propagetor
4.6 Supplement:The △Functions
5 Spin-1/2 Fields:The Dirac Equation
5.1 Introduction
5.2 Canonical Quantization of the Dirac Field
……
6 Spin-1 Fields:The Maxwell and Proca Equations
7 Quantization of the Photon Fields
8 Interacting Quantum Fields
9 The Reduction Formalism
10 Discrete Symmetry Transformations
Part Ⅲ.Quantization with Path Integrals
11 The Path-Integral Method
12 Path Integrals in Field Theory
Index
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