Verfügbarkeit: Introduction to quantum field theory

Introduction to quantum field theory:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Chang, S.-J. 1936- (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore World Scientific ©1990
Schriftenreihe:	World Scientific lecture notes in physics v. 29
Schlagworte:	Particles (Nuclear physics) Physics Quantum electrodynamics Quantum field theory Champs, Théorie quantique des SCIENCE / Waves & Wave Mechanics Quantenfeldtheorie Einführung
Online-Zugang:	FAW01 FAW02
Beschreibung:	Includes bibliographical references (pages v-vi) and index Preface; Notations; Contents; Part I GENERAL FIELD THEORY; Chapter 1 MANY PARTICLE SYSTEMS AND FIELD THEORIES; 1. An NR Quantum System with n Degrees of Freedom; 2. Continuum Limit; 3. A Free Field; 4. Nonrelativistic Many-particle Systems; Chapter 2 RELATIVISTIC FREE FIELD THEORIES; 1. Free Scalar Fields; 2. Free Dirac Equations; 3. Plane Wave Solutions to Dirac Equations; 4. Free Dirac Fields; 5. Negative Energy Sea; Chapter 3 INTERACTIONS AMONG FIELDS; 1. An Example of Field Interactions; 2. Interaction Picture and Dyson's Expansion; 3. S-Matrix In-states and Out-states; 4. Wick's Theorem 5. Second Order Processes6. Explicit Amplitudes; Chapter 4 FEYNMAN DIAGRAMS AND CROSS SECTIONS; 1. Position-space Feynman Rules; 2. Momentum-space Feynman Rules; 3. Cross Sections; 4. Phase-space Factors; 5. An Example; Chapter 5 QUANTUM ELECTRODYNAMICS; 1. The Classical Electromagnetic Field; 2. Quantization of the Electromagnetic Field; 3. The Photon Propagators; 4. The Minimal Coupling and the Feynman Rules; 5. Electron-electron Scattering; 6. Interactions with the Classical Sources; 7. Compton Scattering and the Low Energy Theorem; Chapter 6 HIGHER ORDER PROCESSES. 1. Degrees of Divergence2. The Vacuum Polarization Diagrams; 3. Electron Self-energy Diagrams; 4. Vertex Corrections; Chapter 7 ZERO TEMPERATURE FERMI SYSTEM; 1. Introduction; 2. The Feynman Rules; 3. Hartree-Fock Approximation; Chapter 8 THE ELECTRON GAS MODEL; 1. The Model; 2. Hartree-Fock Approximation; 3. Polarization and Screening; 4. Decay of Electrons and Holes; Chapter 9 BRUEKNER THEORY OF NUCLEAR MAITER; 1. Nuclear Matter; 2. Bruekner Theory; Chapter 10 ZERO TEMPERATURE BOSE SYSTEM; 1. Noninteracting Bose System; 2. Zero Temperature Interacting Bose System; 3. Self-energy Diagrams Chapter 11 LIQUID HELIUM-41. Review of Facts; 2. Superfluidity; Chapter 12 CLASSICAL SYSTEMS WITH NOISES; 1. Equivalent Systems; 2. Feynman Rules; 3. Fokker-Planck Equations and Boltzmann Distribution; Part II ADVANCED FIELD THEORY; Chapter 1 FIELD QUANTIZATIONS; 1. Action Principle; 2. Quantization of a Scalar Field; 3. Quantization of a Dirac Field; 4. Quantization of a Vector Field; Chapter 2 LORENTZ TRANSFORMATION PROPERTIES; 1. Lorentz Invariance; 2. Free Scalar and Dirac Fields; 3. Stress Tensor; 4. Schwinger Relation; Chapter 3 DISCRETE TRANSFORMATIONS; 1. Parity; 2. Charge Conjugation 3. Time Reversal4. TCP Theorem; 5. Spin and Statistics; Chapter 4 PATH INTEGRAL FORMULATION; 1. Non-relativistic Quantum Mechanics; 2. Classical Limit; 3. Hamiltonian Path Integrals; 4. Scalar Field Theories and Feynman Rules; 5. Dyson-Schwinger Equation; 6. Grassmann Algebra; 7. Fermion System; Chapter 5 GAUGE THEORIES; 1. Path Integral Formulation of Maxwell Fields; 2. Quantum Electrodynamics; 3. Yang-Mills Fields; 4. Path Integrals and Feynman Rules; 5. Examples; Chapter 6 RENORMALIZATION THEORY; 1. Renormalization of QED -- One Loop Diagrams; 2. Dyson's Prescriptions This book presents in a short volume the basics of quantum field theory and many body physics. The first part introduces the perturbative techniques without sophisticated apparatus and applies them to numerous problems including quantum electrodynamics (renormalization), Fermi and Bose gases, the Brueckner theory of nuclear system, liquid Helium and classical systems with noise. The material is clear, illustrative and the important points are stressed to help the reader get the understanding of what is crucial without overwhelming him with unnecessary detours or comments. The material in the s
Beschreibung:	xii, 382 pages
ISBN:	9789812799272 9812799273 9971506270 9789971506278 9971506815 9789971506810

Internformat

MARC


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490	0		\|a World Scientific lecture notes in physics \|v v. 29
500			\|a Includes bibliographical references (pages v-vi) and index
500			\|a Preface; Notations; Contents; Part I GENERAL FIELD THEORY; Chapter 1 MANY PARTICLE SYSTEMS AND FIELD THEORIES; 1. An NR Quantum System with n Degrees of Freedom; 2. Continuum Limit; 3. A Free Field; 4. Nonrelativistic Many-particle Systems; Chapter 2 RELATIVISTIC FREE FIELD THEORIES; 1. Free Scalar Fields; 2. Free Dirac Equations; 3. Plane Wave Solutions to Dirac Equations; 4. Free Dirac Fields; 5. Negative Energy Sea; Chapter 3 INTERACTIONS AMONG FIELDS; 1. An Example of Field Interactions; 2. Interaction Picture and Dyson's Expansion; 3. S-Matrix In-states and Out-states; 4. Wick's Theorem
500			\|a 5. Second Order Processes6. Explicit Amplitudes; Chapter 4 FEYNMAN DIAGRAMS AND CROSS SECTIONS; 1. Position-space Feynman Rules; 2. Momentum-space Feynman Rules; 3. Cross Sections; 4. Phase-space Factors; 5. An Example; Chapter 5 QUANTUM ELECTRODYNAMICS; 1. The Classical Electromagnetic Field; 2. Quantization of the Electromagnetic Field; 3. The Photon Propagators; 4. The Minimal Coupling and the Feynman Rules; 5. Electron-electron Scattering; 6. Interactions with the Classical Sources; 7. Compton Scattering and the Low Energy Theorem; Chapter 6 HIGHER ORDER PROCESSES.
500			\|a 1. Degrees of Divergence2. The Vacuum Polarization Diagrams; 3. Electron Self-energy Diagrams; 4. Vertex Corrections; Chapter 7 ZERO TEMPERATURE FERMI SYSTEM; 1. Introduction; 2. The Feynman Rules; 3. Hartree-Fock Approximation; Chapter 8 THE ELECTRON GAS MODEL; 1. The Model; 2. Hartree-Fock Approximation; 3. Polarization and Screening; 4. Decay of Electrons and Holes; Chapter 9 BRUEKNER THEORY OF NUCLEAR MAITER; 1. Nuclear Matter; 2. Bruekner Theory; Chapter 10 ZERO TEMPERATURE BOSE SYSTEM; 1. Noninteracting Bose System; 2. Zero Temperature Interacting Bose System; 3. Self-energy Diagrams
500			\|a Chapter 11 LIQUID HELIUM-41. Review of Facts; 2. Superfluidity; Chapter 12 CLASSICAL SYSTEMS WITH NOISES; 1. Equivalent Systems; 2. Feynman Rules; 3. Fokker-Planck Equations and Boltzmann Distribution; Part II ADVANCED FIELD THEORY; Chapter 1 FIELD QUANTIZATIONS; 1. Action Principle; 2. Quantization of a Scalar Field; 3. Quantization of a Dirac Field; 4. Quantization of a Vector Field; Chapter 2 LORENTZ TRANSFORMATION PROPERTIES; 1. Lorentz Invariance; 2. Free Scalar and Dirac Fields; 3. Stress Tensor; 4. Schwinger Relation; Chapter 3 DISCRETE TRANSFORMATIONS; 1. Parity; 2. Charge Conjugation
500			\|a 3. Time Reversal4. TCP Theorem; 5. Spin and Statistics; Chapter 4 PATH INTEGRAL FORMULATION; 1. Non-relativistic Quantum Mechanics; 2. Classical Limit; 3. Hamiltonian Path Integrals; 4. Scalar Field Theories and Feynman Rules; 5. Dyson-Schwinger Equation; 6. Grassmann Algebra; 7. Fermion System; Chapter 5 GAUGE THEORIES; 1. Path Integral Formulation of Maxwell Fields; 2. Quantum Electrodynamics; 3. Yang-Mills Fields; 4. Path Integrals and Feynman Rules; 5. Examples; Chapter 6 RENORMALIZATION THEORY; 1. Renormalization of QED -- One Loop Diagrams; 2. Dyson's Prescriptions
500			\|a This book presents in a short volume the basics of quantum field theory and many body physics. The first part introduces the perturbative techniques without sophisticated apparatus and applies them to numerous problems including quantum electrodynamics (renormalization), Fermi and Bose gases, the Brueckner theory of nuclear system, liquid Helium and classical systems with noise. The material is clear, illustrative and the important points are stressed to help the reader get the understanding of what is crucial without overwhelming him with unnecessary detours or comments. The material in the s
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650		4	\|a Physics
650		4	\|a Quantum electrodynamics
650		4	\|a Quantum field theory
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650		7	\|a SCIENCE / Waves & Wave Mechanics \|2 bisacsh
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650		7	\|a Champs, Théorie quantique des \|2 ram
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Datensatz im Suchindex

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author	Chang, S.-J. 1936-
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dewey-ones	530 - Physics
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series2	World Scientific lecture notes in physics
spelling	Chang, S.-J. 1936- Verfasser aut Introduction to quantum field theory S.J. Chang Singapore World Scientific ©1990 xii, 382 pages txt rdacontent c rdamedia cr rdacarrier World Scientific lecture notes in physics v. 29 Includes bibliographical references (pages v-vi) and index Preface; Notations; Contents; Part I GENERAL FIELD THEORY; Chapter 1 MANY PARTICLE SYSTEMS AND FIELD THEORIES; 1. An NR Quantum System with n Degrees of Freedom; 2. Continuum Limit; 3. A Free Field; 4. Nonrelativistic Many-particle Systems; Chapter 2 RELATIVISTIC FREE FIELD THEORIES; 1. Free Scalar Fields; 2. Free Dirac Equations; 3. Plane Wave Solutions to Dirac Equations; 4. Free Dirac Fields; 5. Negative Energy Sea; Chapter 3 INTERACTIONS AMONG FIELDS; 1. An Example of Field Interactions; 2. Interaction Picture and Dyson's Expansion; 3. S-Matrix In-states and Out-states; 4. Wick's Theorem 5. Second Order Processes6. Explicit Amplitudes; Chapter 4 FEYNMAN DIAGRAMS AND CROSS SECTIONS; 1. Position-space Feynman Rules; 2. Momentum-space Feynman Rules; 3. Cross Sections; 4. Phase-space Factors; 5. An Example; Chapter 5 QUANTUM ELECTRODYNAMICS; 1. The Classical Electromagnetic Field; 2. Quantization of the Electromagnetic Field; 3. The Photon Propagators; 4. The Minimal Coupling and the Feynman Rules; 5. Electron-electron Scattering; 6. Interactions with the Classical Sources; 7. Compton Scattering and the Low Energy Theorem; Chapter 6 HIGHER ORDER PROCESSES. 1. Degrees of Divergence2. The Vacuum Polarization Diagrams; 3. Electron Self-energy Diagrams; 4. Vertex Corrections; Chapter 7 ZERO TEMPERATURE FERMI SYSTEM; 1. Introduction; 2. The Feynman Rules; 3. Hartree-Fock Approximation; Chapter 8 THE ELECTRON GAS MODEL; 1. The Model; 2. Hartree-Fock Approximation; 3. Polarization and Screening; 4. Decay of Electrons and Holes; Chapter 9 BRUEKNER THEORY OF NUCLEAR MAITER; 1. Nuclear Matter; 2. Bruekner Theory; Chapter 10 ZERO TEMPERATURE BOSE SYSTEM; 1. Noninteracting Bose System; 2. Zero Temperature Interacting Bose System; 3. Self-energy Diagrams Chapter 11 LIQUID HELIUM-41. Review of Facts; 2. Superfluidity; Chapter 12 CLASSICAL SYSTEMS WITH NOISES; 1. Equivalent Systems; 2. Feynman Rules; 3. Fokker-Planck Equations and Boltzmann Distribution; Part II ADVANCED FIELD THEORY; Chapter 1 FIELD QUANTIZATIONS; 1. Action Principle; 2. Quantization of a Scalar Field; 3. Quantization of a Dirac Field; 4. Quantization of a Vector Field; Chapter 2 LORENTZ TRANSFORMATION PROPERTIES; 1. Lorentz Invariance; 2. Free Scalar and Dirac Fields; 3. Stress Tensor; 4. Schwinger Relation; Chapter 3 DISCRETE TRANSFORMATIONS; 1. Parity; 2. Charge Conjugation 3. Time Reversal4. TCP Theorem; 5. Spin and Statistics; Chapter 4 PATH INTEGRAL FORMULATION; 1. Non-relativistic Quantum Mechanics; 2. Classical Limit; 3. Hamiltonian Path Integrals; 4. Scalar Field Theories and Feynman Rules; 5. Dyson-Schwinger Equation; 6. Grassmann Algebra; 7. Fermion System; Chapter 5 GAUGE THEORIES; 1. Path Integral Formulation of Maxwell Fields; 2. Quantum Electrodynamics; 3. Yang-Mills Fields; 4. Path Integrals and Feynman Rules; 5. Examples; Chapter 6 RENORMALIZATION THEORY; 1. Renormalization of QED -- One Loop Diagrams; 2. Dyson's Prescriptions This book presents in a short volume the basics of quantum field theory and many body physics. The first part introduces the perturbative techniques without sophisticated apparatus and applies them to numerous problems including quantum electrodynamics (renormalization), Fermi and Bose gases, the Brueckner theory of nuclear system, liquid Helium and classical systems with noise. The material is clear, illustrative and the important points are stressed to help the reader get the understanding of what is crucial without overwhelming him with unnecessary detours or comments. The material in the s Particles (Nuclear physics) Physics Quantum electrodynamics Quantum field theory Champs, Théorie quantique des SCIENCE / Waves & Wave Mechanics bisacsh Quantum field theory fast Champs, Théorie quantique des ram Quantenfeldtheorie swd Einführung swd Quantenfeldtheorie (DE-588)4047984-5 gnd rswk-swf 1\p (DE-588)4151278-9 Einführung gnd-content Quantenfeldtheorie (DE-588)4047984-5 s 2\p DE-604 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Chang, S.-J. 1936- Introduction to quantum field theory Particles (Nuclear physics) Physics Quantum electrodynamics Quantum field theory Champs, Théorie quantique des SCIENCE / Waves & Wave Mechanics bisacsh Quantum field theory fast Champs, Théorie quantique des ram Quantenfeldtheorie swd Einführung swd Quantenfeldtheorie (DE-588)4047984-5 gnd
subject_GND	(DE-588)4047984-5 (DE-588)4151278-9
title	Introduction to quantum field theory
title_auth	Introduction to quantum field theory
title_exact_search	Introduction to quantum field theory
title_full	Introduction to quantum field theory S.J. Chang
title_fullStr	Introduction to quantum field theory S.J. Chang
title_full_unstemmed	Introduction to quantum field theory S.J. Chang
title_short	Introduction to quantum field theory
title_sort	introduction to quantum field theory
topic	Particles (Nuclear physics) Physics Quantum electrodynamics Quantum field theory Champs, Théorie quantique des SCIENCE / Waves & Wave Mechanics bisacsh Quantum field theory fast Champs, Théorie quantique des ram Quantenfeldtheorie swd Einführung swd Quantenfeldtheorie (DE-588)4047984-5 gnd
topic_facet	Particles (Nuclear physics) Physics Quantum electrodynamics Quantum field theory Champs, Théorie quantique des SCIENCE / Waves & Wave Mechanics Quantenfeldtheorie Einführung
work_keys_str_mv	AT changsj introductiontoquantumfieldtheory

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