An introduction to quantum field theory:
Cover -- Half Title -- Title -- Copyright -- Contents -- Preface -- Notations and Conventions -- Editor's Foreword -- Part I: Feynman Diagrams and Quantum Electrodynamics -- 1 Invitation: Pair Production in e + e - Annihilation -- 2 The Klein-Gordon Field -- 2.1 The Necessity of the Field Viewp...
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton
CRC Press, Taylor & Francis Group
2018
|
| Schriftenreihe: | Frontiers in Physics
|
| Schlagworte: | |
| Online-Zugang: | FUBA1 |
| Zusammenfassung: | Cover -- Half Title -- Title -- Copyright -- Contents -- Preface -- Notations and Conventions -- Editor's Foreword -- Part I: Feynman Diagrams and Quantum Electrodynamics -- 1 Invitation: Pair Production in e + e - Annihilation -- 2 The Klein-Gordon Field -- 2.1 The Necessity of the Field Viewpoint -- 2.2 Elements of Classical Field Theory -- Lagrangian Field Theory -- Hamiltonian Field Theory -- Noether's Theorem -- 2.3 The Klein-Gordon Field as Harmonic Oscillators -- 2.4 The Klein-Gordon Field in Space-Time -- Causality -- The Klein-Gordon Propagator -- Particle Creation by a Classical Source -- Problems -- 3 The Dirac Field -- 3.1 Lorentz Invariance in Wave Equations -- 3.2 The Dirac Equation -- Weyl Spinors -- 3.3 Free-Particle Solutions of the Dirac Equation -- Spin Sums -- 3.4 Dirac Matrices and Dirac Field Bilinears -- 3.5 Quantization of the Dirac Field -- Spin and Statistics -- The Dirac Propagator -- 3.6 Discrete Symmetries of the Dirac Theory -- Parity -- Time Reversal -- Charge Conjugation -- Problems -- 4 Interacting Fields and Feynman Diagrams -- 4.1 Perturbation Theory-Philosophy and Examples -- 4.2 Perturbation Expansion of Correlation Functions -- 4.3 Wick's Theorem -- 4.4 Feynman Diagrams -- 4.5 Cross Sections and the S-Matrix -- 4.6 Computing S-Matrix Elements from Feynman Diagrams -- 4.7 Feynman Rules for Fermions -- Yukawa Theory -- 4.8 Feynman Rules for Quantum Electrodynamics -- The Coulomb Potential -- Problems -- 5 Elementary Processes of Quantum Electrodynamics -- 5.1 e + e - → μ + μ - : Introduction -- Trace Technology -- Unpolarized Cross Section -- e+ e- → Hadrons -- 5.2 e+ e- → μ + μ - : Helicity Structure -- 5.3 e+ e- → μ + μ - : Nonrelativistic Limit -- Bound States -- Vector Meson Production and Decay -- 5.4 Crossing Symmetry -- Electron-Muon Scattering -- Mandelstam Variables -- 5.5 Compton Scattering Photon Polarization Sums -- The Klein-Nishina Formula -- High-Energy Behavior -- Pair Annihilation into Photons -- Problems -- 6 Radiative Corrections: Introduction -- 6.1 Soft Bremsstrahlung -- Classical Computation -- Quantum Computation -- 6.2 The Electron Vertex Function: Formal Structure -- 6.3 The Electron Vertex Function: Evaluation -- Feynman Parameters -- Precision Tests of QED -- 6.4 The Electron Vertex Function: Infrared Divergence -- 6.5 Summation and Interpretation of Infrared Divergences -- Problems -- 7 Radiative Corrections: Some Formal Developments -- 7.1 Field-Strength Renormalization -- The Electron Self-Energy -- 7.2 The LSZ Reduction Formula -- 7.3 The Optical Theorem -- The Optical Theorem for Feynman Diagrams -- Unstable Particles -- 7.4 The Ward-Takahashi Identity -- 7.5 Renormalization of the Electric Charge -- Dimensional Regularization -- Problems -- Final Project: Radiation of Gluon Jets -- Part II: Renormalization -- 8 Invitation: Ultraviolet Cutoffs and Critical Fluctuations -- 9 Functional Methods -- 9.1 Path Integrals in Quantum Mechanics -- 9.2 Functional Quantization of Scalar Fields -- Correlation Functions -- Feynman Rules -- Functional Derivatives and the Generating Functional -- 9.3 Quantum Field Theory and Statistical Mechanics -- 9.4 Quantization of the Electromagnetic Field -- 9.5 Functional Quantization of Spinor Fields -- Anticommuting Numbers -- The Dirac Propagator -- Generating Functional for the Dirac Field -- QED -- Functional Determinants -- 9.6 Symmetries in the Functional Formalism -- Equations of Motion -- Conservation Laws -- The Ward-Takahashi Identity -- Problems -- 10 Systematics of Renormalization -- 10.1 Counting of Ultraviolet Divergences -- 10.2 Renormalized Perturbation Theory -- One-Loop Structure of ϕ4 Theory -- 10.3 Renormalization of Quantum Electrodynamics -- One-Loop Structure of QED 10.4 Renormalization Beyond the Leading Order -- 10.5 A Two-Loop Example -- Problems -- 11 Renormalization and Symmetry -- 11.1 Spontaneous Symmetry Breaking -- The Linear Sigma Model -- Goldstone's Theorem -- 11.2 Renormalization and Symmetry: An Explicit Example -- 11.3 The Effective Action -- 11.4 Computation of the Effective Action -- The Effective Action in the Linear Sigma Model -- 11.5 The Effective Action as a Generating Functional -- 11.6 Renormalization and Symmetry: General Analysis -- Goldstone's Theorem Revisited -- Problems -- 12 The Renormalization Group -- 12.1 Wilson's Approach to Renormalization Theory -- 12.2 The Callan-Symanzik Equation -- Renormalization Conditions -- The Callan-Symanzik Equation -- Computation of β and γ -- The Meaning of β and γ -- 12.3 Evolution of Coupling Constants -- Solution of the Callan-Symanzik Equation -- An Application to QED -- Alternatives for the Running of Coupling Constants -- 12.4 Renormalization of Local Operators -- 12.5 Evolution of Mass Parameters -- Critical Exponents: A First Look -- Problems -- 13 Critical Exponents and Scalar Field Theory -- 13.1 Theory of Critical Exponents -- Exponents of the Spin Correlation Function -- Exponents of Thermodynamic Functions -- Values of the Critical Exponents -- 13.2 Critical Behavior in Four Dimensions -- 13.3 The Nonlinear Sigma Model -- Problems -- Final Project: The Coleman-Weinberg Potential -- Part III: Non-Abelian Gauge Theories -- 14 Invitation: The Parton Model of Hadron Structure -- 15 Non-Abelian Gauge Invariance -- 15.1 The Geometry of Gauge Invariance -- 15.2 The Yang-Mills Lagrangian -- 15.3 The Gauge-Invariant Wilson Loop -- 15.4 Basic Facts About Lie Algebras -- Classification of Lie Algebras -- Representations -- The Casimir Operator -- Problems -- 16 Quantization of Non-Abelian Gauge Theories |
| Beschreibung: | 1 Online-Ressource (XXII, 842 Seiten) |
| ISBN: | 9780429972102 |
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| 245 | 1 | 0 | |a An introduction to quantum field theory |c Michael E. Peskin, Stanford Linear Accelerator Center, Daniel V. Schroeder, Weber State University |
| 246 | 1 | 3 | |a Quantum field theory |
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| 520 | 3 | |a Cover -- Half Title -- Title -- Copyright -- Contents -- Preface -- Notations and Conventions -- Editor's Foreword -- Part I: Feynman Diagrams and Quantum Electrodynamics -- 1 Invitation: Pair Production in e + e - Annihilation -- 2 The Klein-Gordon Field -- 2.1 The Necessity of the Field Viewpoint -- 2.2 Elements of Classical Field Theory -- Lagrangian Field Theory -- Hamiltonian Field Theory -- Noether's Theorem -- 2.3 The Klein-Gordon Field as Harmonic Oscillators -- 2.4 The Klein-Gordon Field in Space-Time -- Causality -- The Klein-Gordon Propagator -- Particle Creation by a Classical Source -- Problems -- 3 The Dirac Field -- 3.1 Lorentz Invariance in Wave Equations -- 3.2 The Dirac Equation -- Weyl Spinors -- 3.3 Free-Particle Solutions of the Dirac Equation -- Spin Sums -- 3.4 Dirac Matrices and Dirac Field Bilinears -- 3.5 Quantization of the Dirac Field -- Spin and Statistics -- The Dirac Propagator -- 3.6 Discrete Symmetries of the Dirac Theory -- Parity -- Time Reversal -- Charge Conjugation -- Problems -- 4 Interacting Fields and Feynman Diagrams -- 4.1 Perturbation Theory-Philosophy and Examples -- 4.2 Perturbation Expansion of Correlation Functions -- 4.3 Wick's Theorem -- 4.4 Feynman Diagrams -- 4.5 Cross Sections and the S-Matrix -- 4.6 Computing S-Matrix Elements from Feynman Diagrams -- 4.7 Feynman Rules for Fermions -- Yukawa Theory -- 4.8 Feynman Rules for Quantum Electrodynamics -- The Coulomb Potential -- Problems -- 5 Elementary Processes of Quantum Electrodynamics -- 5.1 e + e - → μ + μ - : Introduction -- Trace Technology -- Unpolarized Cross Section -- e+ e- → Hadrons -- 5.2 e+ e- → μ + μ - : Helicity Structure -- 5.3 e+ e- → μ + μ - : Nonrelativistic Limit -- Bound States -- Vector Meson Production and Decay -- 5.4 Crossing Symmetry -- Electron-Muon Scattering -- Mandelstam Variables -- 5.5 Compton Scattering | |
| 520 | 3 | |a Photon Polarization Sums -- The Klein-Nishina Formula -- High-Energy Behavior -- Pair Annihilation into Photons -- Problems -- 6 Radiative Corrections: Introduction -- 6.1 Soft Bremsstrahlung -- Classical Computation -- Quantum Computation -- 6.2 The Electron Vertex Function: Formal Structure -- 6.3 The Electron Vertex Function: Evaluation -- Feynman Parameters -- Precision Tests of QED -- 6.4 The Electron Vertex Function: Infrared Divergence -- 6.5 Summation and Interpretation of Infrared Divergences -- Problems -- 7 Radiative Corrections: Some Formal Developments -- 7.1 Field-Strength Renormalization -- The Electron Self-Energy -- 7.2 The LSZ Reduction Formula -- 7.3 The Optical Theorem -- The Optical Theorem for Feynman Diagrams -- Unstable Particles -- 7.4 The Ward-Takahashi Identity -- 7.5 Renormalization of the Electric Charge -- Dimensional Regularization -- Problems -- Final Project: Radiation of Gluon Jets -- Part II: Renormalization -- 8 Invitation: Ultraviolet Cutoffs and Critical Fluctuations -- 9 Functional Methods -- 9.1 Path Integrals in Quantum Mechanics -- 9.2 Functional Quantization of Scalar Fields -- Correlation Functions -- Feynman Rules -- Functional Derivatives and the Generating Functional -- 9.3 Quantum Field Theory and Statistical Mechanics -- 9.4 Quantization of the Electromagnetic Field -- 9.5 Functional Quantization of Spinor Fields -- Anticommuting Numbers -- The Dirac Propagator -- Generating Functional for the Dirac Field -- QED -- Functional Determinants -- 9.6 Symmetries in the Functional Formalism -- Equations of Motion -- Conservation Laws -- The Ward-Takahashi Identity -- Problems -- 10 Systematics of Renormalization -- 10.1 Counting of Ultraviolet Divergences -- 10.2 Renormalized Perturbation Theory -- One-Loop Structure of ϕ4 Theory -- 10.3 Renormalization of Quantum Electrodynamics -- One-Loop Structure of QED | |
| 520 | 3 | |a 10.4 Renormalization Beyond the Leading Order -- 10.5 A Two-Loop Example -- Problems -- 11 Renormalization and Symmetry -- 11.1 Spontaneous Symmetry Breaking -- The Linear Sigma Model -- Goldstone's Theorem -- 11.2 Renormalization and Symmetry: An Explicit Example -- 11.3 The Effective Action -- 11.4 Computation of the Effective Action -- The Effective Action in the Linear Sigma Model -- 11.5 The Effective Action as a Generating Functional -- 11.6 Renormalization and Symmetry: General Analysis -- Goldstone's Theorem Revisited -- Problems -- 12 The Renormalization Group -- 12.1 Wilson's Approach to Renormalization Theory -- 12.2 The Callan-Symanzik Equation -- Renormalization Conditions -- The Callan-Symanzik Equation -- Computation of β and γ -- The Meaning of β and γ -- 12.3 Evolution of Coupling Constants -- Solution of the Callan-Symanzik Equation -- An Application to QED -- Alternatives for the Running of Coupling Constants -- 12.4 Renormalization of Local Operators -- 12.5 Evolution of Mass Parameters -- Critical Exponents: A First Look -- Problems -- 13 Critical Exponents and Scalar Field Theory -- 13.1 Theory of Critical Exponents -- Exponents of the Spin Correlation Function -- Exponents of Thermodynamic Functions -- Values of the Critical Exponents -- 13.2 Critical Behavior in Four Dimensions -- 13.3 The Nonlinear Sigma Model -- Problems -- Final Project: The Coleman-Weinberg Potential -- Part III: Non-Abelian Gauge Theories -- 14 Invitation: The Parton Model of Hadron Structure -- 15 Non-Abelian Gauge Invariance -- 15.1 The Geometry of Gauge Invariance -- 15.2 The Yang-Mills Lagrangian -- 15.3 The Gauge-Invariant Wilson Loop -- 15.4 Basic Facts About Lie Algebras -- Classification of Lie Algebras -- Representations -- The Casimir Operator -- Problems -- 16 Quantization of Non-Abelian Gauge Theories | |
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Datensatz im Suchindex
| _version_ | 1804179481076695040 |
|---|---|
| any_adam_object | |
| author | Peskin, Michael Edward 1951- |
| author_GND | (DE-588)132775271 (DE-588)13747508X |
| author_facet | Peskin, Michael Edward 1951- |
| author_role | aut |
| author_sort | Peskin, Michael Edward 1951- |
| author_variant | m e p me mep |
| building | Verbundindex |
| bvnumber | BV045526203 |
| classification_rvk | UO 4000 |
| collection | ZDB-30-PQE |
| ctrlnum | (OCoLC)1090772783 (DE-599)GBV1024933571 |
| discipline | Physik |
| format | Electronic eBook |
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| id | DE-604.BV045526203 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T08:20:33Z |
| institution | BVB |
| isbn | 9780429972102 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-030910405 |
| oclc_num | 1090772783 |
| open_access_boolean | |
| owner | DE-188 |
| owner_facet | DE-188 |
| physical | 1 Online-Ressource (XXII, 842 Seiten) |
| psigel | ZDB-30-PQE |
| publishDate | 2018 |
| publishDateSearch | 2018 |
| publishDateSort | 2018 |
| publisher | CRC Press, Taylor & Francis Group |
| record_format | marc |
| series2 | Frontiers in Physics |
| spelling | Peskin, Michael Edward 1951- Verfasser (DE-588)132775271 aut An introduction to quantum field theory Michael E. Peskin, Stanford Linear Accelerator Center, Daniel V. Schroeder, Weber State University Quantum field theory Boca Raton CRC Press, Taylor & Francis Group 2018 1 Online-Ressource (XXII, 842 Seiten) txt rdacontent c rdamedia cr rdacarrier Frontiers in Physics Cover -- Half Title -- Title -- Copyright -- Contents -- Preface -- Notations and Conventions -- Editor's Foreword -- Part I: Feynman Diagrams and Quantum Electrodynamics -- 1 Invitation: Pair Production in e + e - Annihilation -- 2 The Klein-Gordon Field -- 2.1 The Necessity of the Field Viewpoint -- 2.2 Elements of Classical Field Theory -- Lagrangian Field Theory -- Hamiltonian Field Theory -- Noether's Theorem -- 2.3 The Klein-Gordon Field as Harmonic Oscillators -- 2.4 The Klein-Gordon Field in Space-Time -- Causality -- The Klein-Gordon Propagator -- Particle Creation by a Classical Source -- Problems -- 3 The Dirac Field -- 3.1 Lorentz Invariance in Wave Equations -- 3.2 The Dirac Equation -- Weyl Spinors -- 3.3 Free-Particle Solutions of the Dirac Equation -- Spin Sums -- 3.4 Dirac Matrices and Dirac Field Bilinears -- 3.5 Quantization of the Dirac Field -- Spin and Statistics -- The Dirac Propagator -- 3.6 Discrete Symmetries of the Dirac Theory -- Parity -- Time Reversal -- Charge Conjugation -- Problems -- 4 Interacting Fields and Feynman Diagrams -- 4.1 Perturbation Theory-Philosophy and Examples -- 4.2 Perturbation Expansion of Correlation Functions -- 4.3 Wick's Theorem -- 4.4 Feynman Diagrams -- 4.5 Cross Sections and the S-Matrix -- 4.6 Computing S-Matrix Elements from Feynman Diagrams -- 4.7 Feynman Rules for Fermions -- Yukawa Theory -- 4.8 Feynman Rules for Quantum Electrodynamics -- The Coulomb Potential -- Problems -- 5 Elementary Processes of Quantum Electrodynamics -- 5.1 e + e - → μ + μ - : Introduction -- Trace Technology -- Unpolarized Cross Section -- e+ e- → Hadrons -- 5.2 e+ e- → μ + μ - : Helicity Structure -- 5.3 e+ e- → μ + μ - : Nonrelativistic Limit -- Bound States -- Vector Meson Production and Decay -- 5.4 Crossing Symmetry -- Electron-Muon Scattering -- Mandelstam Variables -- 5.5 Compton Scattering Photon Polarization Sums -- The Klein-Nishina Formula -- High-Energy Behavior -- Pair Annihilation into Photons -- Problems -- 6 Radiative Corrections: Introduction -- 6.1 Soft Bremsstrahlung -- Classical Computation -- Quantum Computation -- 6.2 The Electron Vertex Function: Formal Structure -- 6.3 The Electron Vertex Function: Evaluation -- Feynman Parameters -- Precision Tests of QED -- 6.4 The Electron Vertex Function: Infrared Divergence -- 6.5 Summation and Interpretation of Infrared Divergences -- Problems -- 7 Radiative Corrections: Some Formal Developments -- 7.1 Field-Strength Renormalization -- The Electron Self-Energy -- 7.2 The LSZ Reduction Formula -- 7.3 The Optical Theorem -- The Optical Theorem for Feynman Diagrams -- Unstable Particles -- 7.4 The Ward-Takahashi Identity -- 7.5 Renormalization of the Electric Charge -- Dimensional Regularization -- Problems -- Final Project: Radiation of Gluon Jets -- Part II: Renormalization -- 8 Invitation: Ultraviolet Cutoffs and Critical Fluctuations -- 9 Functional Methods -- 9.1 Path Integrals in Quantum Mechanics -- 9.2 Functional Quantization of Scalar Fields -- Correlation Functions -- Feynman Rules -- Functional Derivatives and the Generating Functional -- 9.3 Quantum Field Theory and Statistical Mechanics -- 9.4 Quantization of the Electromagnetic Field -- 9.5 Functional Quantization of Spinor Fields -- Anticommuting Numbers -- The Dirac Propagator -- Generating Functional for the Dirac Field -- QED -- Functional Determinants -- 9.6 Symmetries in the Functional Formalism -- Equations of Motion -- Conservation Laws -- The Ward-Takahashi Identity -- Problems -- 10 Systematics of Renormalization -- 10.1 Counting of Ultraviolet Divergences -- 10.2 Renormalized Perturbation Theory -- One-Loop Structure of ϕ4 Theory -- 10.3 Renormalization of Quantum Electrodynamics -- One-Loop Structure of QED 10.4 Renormalization Beyond the Leading Order -- 10.5 A Two-Loop Example -- Problems -- 11 Renormalization and Symmetry -- 11.1 Spontaneous Symmetry Breaking -- The Linear Sigma Model -- Goldstone's Theorem -- 11.2 Renormalization and Symmetry: An Explicit Example -- 11.3 The Effective Action -- 11.4 Computation of the Effective Action -- The Effective Action in the Linear Sigma Model -- 11.5 The Effective Action as a Generating Functional -- 11.6 Renormalization and Symmetry: General Analysis -- Goldstone's Theorem Revisited -- Problems -- 12 The Renormalization Group -- 12.1 Wilson's Approach to Renormalization Theory -- 12.2 The Callan-Symanzik Equation -- Renormalization Conditions -- The Callan-Symanzik Equation -- Computation of β and γ -- The Meaning of β and γ -- 12.3 Evolution of Coupling Constants -- Solution of the Callan-Symanzik Equation -- An Application to QED -- Alternatives for the Running of Coupling Constants -- 12.4 Renormalization of Local Operators -- 12.5 Evolution of Mass Parameters -- Critical Exponents: A First Look -- Problems -- 13 Critical Exponents and Scalar Field Theory -- 13.1 Theory of Critical Exponents -- Exponents of the Spin Correlation Function -- Exponents of Thermodynamic Functions -- Values of the Critical Exponents -- 13.2 Critical Behavior in Four Dimensions -- 13.3 The Nonlinear Sigma Model -- Problems -- Final Project: The Coleman-Weinberg Potential -- Part III: Non-Abelian Gauge Theories -- 14 Invitation: The Parton Model of Hadron Structure -- 15 Non-Abelian Gauge Invariance -- 15.1 The Geometry of Gauge Invariance -- 15.2 The Yang-Mills Lagrangian -- 15.3 The Gauge-Invariant Wilson Loop -- 15.4 Basic Facts About Lie Algebras -- Classification of Lie Algebras -- Representations -- The Casimir Operator -- Problems -- 16 Quantization of Non-Abelian Gauge Theories Quantenfeldtheorie (DE-588)4047984-5 gnd rswk-swf Quantenfeldtheorie (DE-588)4047984-5 s 1\p DE-604 Schroeder, Daniel V. 1962- Sonstige (DE-588)13747508X oth Erscheint auch als Druck-Ausgabe, Paperback Peskin, Michael E An introduction to quantum field theory Boulder : Chapman and Hall/CRC,c2018 978-0-201-50397-5 0-201-50397-2 (DE-604)BV045518570 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Peskin, Michael Edward 1951- An introduction to quantum field theory Quantenfeldtheorie (DE-588)4047984-5 gnd |
| subject_GND | (DE-588)4047984-5 |
| title | An introduction to quantum field theory |
| title_alt | Quantum field theory |
| title_auth | An introduction to quantum field theory |
| title_exact_search | An introduction to quantum field theory |
| title_full | An introduction to quantum field theory Michael E. Peskin, Stanford Linear Accelerator Center, Daniel V. Schroeder, Weber State University |
| title_fullStr | An introduction to quantum field theory Michael E. Peskin, Stanford Linear Accelerator Center, Daniel V. Schroeder, Weber State University |
| title_full_unstemmed | An introduction to quantum field theory Michael E. Peskin, Stanford Linear Accelerator Center, Daniel V. Schroeder, Weber State University |
| title_short | An introduction to quantum field theory |
| title_sort | an introduction to quantum field theory |
| topic | Quantenfeldtheorie (DE-588)4047984-5 gnd |
| topic_facet | Quantenfeldtheorie |
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