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Path Integral Quantization

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Author(s): Mark S Swanson
Publisher: IOP Publishing
Year: 2020

Language: English

PRELIMS.pdf
Preface
Outline placeholder
Further reading
Author biography
Mark S Swanson
CH001.pdf
Chapter 1 Preliminaries
1.1 Functionals and classical mechanics
1.2 The operator formulation of quantum mechanics
1.3 Operator identities
1.4 Grassmann variables
1.5 Gaussian integrals
1.6 Poisson resummation
Further reading
CH002.pdf
Chapter 2 The quantum mechanical path integral
2.1 The infinitesimal transition element
2.2 The basic quantum mechanical path integral
2.3 The path in path integrals
2.4 Discrete systems and path integrals
2.5 Path integrals with singular coordinates and potentials
2.6 The harmonic oscillator and coherent state path integrals
2.7 Grassmann quantum mechanics and path integrals
Further reading
CH003.pdf
Chapter 3 Evaluating the path integral
3.1 Performing the intermediate integrations
3.2 Classical paths and continuum methods
3.3 The harmonic oscillator
3.4 The semiclassical approximation
3.5 Energy eigenfunctions and the path integral
3.6 Coherent state path integrals and difference equations
3.7 Generating functionals and perturbation theory
3.8 The partition function
3.9 Symmetry and canonical transformations
3.10 Implementing constraints
Further reading
CH004.pdf
Chapter 4 Quantum field theory and path integrals
4.1 Special relativity and relativistic notation
4.2 Action functionals and relativistic fields
4.2.1 The free scalar field
4.2.2 The free bispinor field
4.2.3 The free vector or gauge field
4.3 Canonical quantization of free fields
4.3.1 Quantizing the free scalar field
4.3.2 Quantizing the free bispinor field
4.3.3 Quantizing the free gauge field
4.4 Interacting fields and particle processes
4.5 The interaction picture in field theory
4.6 Coherent states and the scalar field path integral
4.7 Coherent states and the Dirac bispinor path integral
4.8 Configuration space techniques and quadratic path integrals
4.9 The gauge field path integral
Further reading
CH005.pdf
Chapter 5 Basic quantum field theory applications
5.1 Perturbation theory
5.2 Generating functionals
5.3 Interaction symmetries and conservation laws
5.4 Yang–Mills gauge field theory
5.5 Non-perturbative aspects of 1 + 1 Yang–Mills theory
5.6 The Dirac quantization condition
5.7 The effective potential and spontaneously broken symmetry
Further reading