An introduction to quantum field theory:
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| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Boulder, Col. [u.a.]
Westview Press
ca. 2006
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| Ausgabe: | [Nachdr.] |
| Schriftenreihe: | Advanced book program
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| Online-Zugang: | Inhaltsverzeichnis |
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| Beschreibung: | XXII, 842 S. graph. Darst. |
| ISBN: | 0201503972 9780201503975 |
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MARC
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| 020 | |a 9780201503975 |9 978-0-201-50397-5 | ||
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| 100 | 1 | |a Peskin, Michael Edward |d 1951- |e Verfasser |0 (DE-588)132775271 |4 aut | |
| 245 | 1 | 0 | |a An introduction to quantum field theory |c Michael E. Peskin ; Daniel V. Schroeder |
| 250 | |a [Nachdr.] | ||
| 264 | 1 | |a Boulder, Col. [u.a.] |b Westview Press |c ca. 2006 | |
| 300 | |a XXII, 842 S. |b graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a Advanced book program | |
| 500 | |a Hier auch später erschienene, unveränderte Nachdrucke | ||
| 650 | 0 | 7 | |a Renormierung |0 (DE-588)4128419-7 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Quantenfeldtheorie |0 (DE-588)4047984-5 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Eichtheorie |0 (DE-588)4122125-4 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Feynman-Graph |0 (DE-588)4154291-5 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Quantenfeldtheorie |0 (DE-588)4047984-5 |D s |
| 689 | 0 | 1 | |a Feynman-Graph |0 (DE-588)4154291-5 |D s |
| 689 | 0 | 2 | |a Renormierung |0 (DE-588)4128419-7 |D s |
| 689 | 0 | 3 | |a Eichtheorie |0 (DE-588)4122125-4 |D s |
| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Schroeder, Daniel V. |e Verfasser |4 aut | |
| 856 | 4 | 2 | |m Digitalisierung UB Regensburg |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014899128&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-014899128 | ||
Datensatz im Suchindex
| _version_ | 1804135508252557312 |
|---|---|
| adam_text | Contents
Preface
..........................xi
Notations and Conventions
.................xix
Editor s Foreword
.................... xxii
Part I: Feynman Diagrams and
Quantum Electrodynamics
Invitation: Pair Production in e+e~ Annihilation
.....3
The Klein-Gordon Field
.................13
2.1
The Necessity of the Field Viewpoint
..........13
2.2
Elements of Classical Field Theory
...........15
Lagrangian Field Theory; Hamiltonian Field Theory;
Noether s Theorem
2.3
The Klein-Gordon Field as Harmonic Oscillators
.....19
2.4
The Klein-Gordon Field in Space-Time
..........25
Causality; The Klein-Gordoti Propagator;
Particle
Création
by a Classical Source
Problems
.......................33
The Dirac Field
.....................35
3.1
Lorentz
Invariance
in Wave Equations
..........35
3.2
The Dirac Equation
..................40
Weyl Spinors
3.3
Free-Particle Solutions of the Dirac Equation
.......45
Spin Sums
3.4
Dirac Matrices and Dirac Field Bilinears
.........49
3.5
Quantization of the Dirac Field
.............52
Spin and Statistics; The Dirac Propagator
3.6
Discrete Symmetries of the Dirac Theory
.........64
Parity; Time Reversal: Charge Conjugation
Problems
.......................71
vi
Contents
4
Interacting Fields and Feynman Diagrams
........ 77
4.1
Perturbation Theory
—
Philosophy and Examples
..... 77
4.2
Perturbation Expansion of Correlation Functions
..... 82
4.3
Wick s Theorem
.................... 88
4.4
Feynman Diagrams
.................. 90
4.5
Cross Sections and the ¿ -Matrix
............ 99
4.6
Computing S-Matrix Elements from Feynman Diagrams
. . 108
4.7
Feynman Rules for
Fermions
.............: 115
Yukawa Theory
4.8
Feynman Rules for Quantum Electrodynamics
...... 123
Tie Coulomb Potential
Problems
....................... 126
5
Elementary Processes of Quantum Electrodynamics
. . 131
5.1
e+e~
—>
μ+ μ~:
Introduction
..............131
Trace Technology: Unpolarized Cross Section: e+c~
—»
Hadrons
5.2
e+e~
—>
μ+μ~:
Helicity
Structure
............141
5.3
e+e~
—
»μ+μ~:
Nonrelativistic Limit
...........146
Bound States: Vector Meson Production and Decay
5.4
Crossing Symmetry
..................153
Electron-Muon Scattering:
Mandelstam
Variables
5.5
Compton Scattering
..................158
Photon Polarization Sums: The Klein-Nishina Formula:
High-Energy Behavior: Pair Annihilation into Photons
Problems
.......................169
6
Radiative Corrections: Introduction
.......... 175
6.1
Soft
Bremsstrahlung..................176
Classical Computation: Quantum Computation
6.2
The Electron Vertex Function: Formal Structure
.....184
6.3
The Electron Vertex Function: Evaluation
........189
Feynman Parameters: Precision Tests of QED
6.4
The Electron Vertex Function: Infrared Divergence
.... 199
*6.5 Summation and Interpretation of Infrared Divergences
. . . 202
Problems
.......................208
7
Radiative Corrections: Some Formal Developments
. . 211
7.1
Field-Strength Renormalization
.............211
The Electron Self-Energy
7.2
The LSZ Reduction Formula
..............222
7.3
The Optical Theorem
.................230
The Optical Theorem for Feynman Diagrams: Unstable Particles
7.4
The Ward-Takahashi Identity
..............238
7.5
Renormalization of the Electric Charge
..........244
Dimensional Regularization
Problems
.......................257
Final Project: Radiation of Gluon Jets
.........259
Contents
vii
Part II: Renormalization
8
Invitation: Ultraviolet Cutoffs and Critical Fluctuations
265
9
Functional Methods
.................. 275
9.1
Path Integrals in Quantum Mechanics
..........275
9.2
Functional Quantization of Scalar Fields
.........282
Correlation Functions; Feynman Rules; Functional Derivatives
and the Generating Functional
9.3
Quantum Field Theory and Statistical Mechanics
.....292
9.4
Quantization of the Electromagnetic Field
........294
9.5
Functional Quantization of Spinor Fields
.........298
Ant ¡commuting Numbers: The Dirac Propagator: Generating
Functional for the Dirac Field: QED: Functional Determinants
*9.6 Symmetries in the Functional Formalism
.........306
Equations of Motion: Conservation Laws: The Ward-
Takahashi Identity
Problems
.......................312
10
Systematics of Renormalization
............ 315
10.1
Counting of Ultraviolet Divergences
...........315
10.2
Renormalized Perturbation Theory
...........323
One-Loop Structure of
0і
Theory
10.3
Renormalization of Quantum Electrodynamics
......330
One-Loop Structure of QED
10.4
Renormalization Beyond the Leading Order
........335
*10.5 A Two-Loop Example
.................338
Problems
.......................344
11
Renormalization and Symmetry
............ 347
11.1
Spontaneous Symmetry Breaking
............348
The Linear Sigma Model: Goidstone s Theorem
*11.2 Renormalization and Symmetry: An Explicit Example
. . . 352
*11.3 The Effective Action
..................364
*11.4
Computation of the Effective Action
...........370
The Effective Action in the Linear Sigma. Model
*11.5 The Effective Action as a Generating Functional
.....379
*1
1.6
Renormalization and Symmetry: General Analysis
.....383
Goidstone s Theorem Revisited
Problems
.......................389
12
The Renormalization Group
.............. 393
12.1
Wilson s Approach to Renormalization Theory
......394
12.2
The Callan-Symanzik Equation
.............406
Renormalization Conditions: The Callan-Symanzik Equation;
Computation of
J
and ~: The Meaning of
3
and
-
Contents
12.3 Evolution
of Coupling Constants
............418
Solution of the Callan-Symanzik Equation: An Application
to QED: Alternatives for the Running of Coupling Constants
*12.4 Renormalization of Local Operators
...........428
*12.5 Evolution of Mass Parameters
..............432
Critical Exponents: A First Look
Problems
.......................438
13
Critical Exponents and Scalar Field Theory
...... 439
*13.1 Theory of Critical Exponents
..............440
Exponents of the Spin Correlation Function: Exponents of
Thermodynamic Functions: Values of the Critical Exponents
*13.2 Critical Behavior in Four Dimensions
..........451
*13.3 The Nonlinear Sigma Model
..............454
Problems
.......................466
*Final Project: The Coleman-
Weinberg
Potential
.... 469
Part III: Non-Abelian Gauge Theories
14
Invitation: The
Parton
Model of Hadron Structure
. . 473
15
Non-Abelian Gauge
Invariance
............. 481
15.1
The Geometry of Gauge
Invariance
...........482
15.2
The Yang-Mills Lagrangian
...............486
*15.3 The Gauge-Invariant Wilson Loop
............491
15.4
Basic Facts About Lie Algebras
.............495
Classification of Lie Algebras: Representations:
The
Casimir
Operator
Problems
.......................502
16
Quantization of Non-Abelian Gauge Theories
..... 505
16.1
Interactions of Non-Abelian Gauge Bosons
........506
Feynman Rules for
Fermions
and Gauge Bosons;
Equality of Coupling Constants: A Flaw in the Argument
16.2
The Faddeev-Popov Lagrangian
.............512
16.3
Ghosts and Unitarity
.................515
*16.4
BRST
Symmetry
...................517
*16.5 One-Loop Divergences of Non-Abelian Gauge Theory
. . . 521
The Gauge Boson Self-Energ}·: The
3
Function:
Relations among Counterterms
*16.6 Asymptotic Freedom: The Background Field Method
. . . 533
16.7
Asymptotic Freedom: A Qualitath e Explanation
.....541
Problems
.......................544
Contents ix
17 Quantum Chromodynamics.............. 545
17.1
From
Quarks
to QCD
.................545
17.2 e+e~ Annihilation
into Hadrons
.............548
Total
Cross Section; The Running of
аѕ:
Gluon Emission
17.3
Deep Inelastic Scattering
................555
Deep Inelastic Neutrino Scattering: The Distribution Functioiis
17.4
Hard-Scattering Processes in Hadron Collisions
......563
Lepton
Pair
Production: Kinematics; Jet Pair Production
17.5
Parton
Evolution
...................574
The Equivalent Photon Approximation; Multiple Splittings:
Evolution Equations for QED; The Altarelli-P
arisi
Equations
17.6
Measurements of as
..................593
Problems
.......................595
18
Operator Products and Effective Vertices
....... 599
*18.1 Renormalization of the Quark Mass Parameter
......599
*18.2 QCD Renormalization of the Weak Interactions
......605
*18.3 The Operator Product Expansion
............612
*18.4 Operator Analysis of e+e Annihilation
.........615
*18.5 Operator Analysis of Deep Inelastic Scattering
......621
Kinematics; Expansion of the Operator Product;
The Dispersion Integral; Operator Rescaling: Operator Mixing;
Relation to the Altarelli-Parisi Equations
Problems
.......................647
19
Perturbation Theory Anomalies
............ 651
*19.1 The Axial Current in Two Dimensions
..........651
Vacuum Polarization Diagrams.· The Current Operator
Equation: An Example with Fermion Number Nonconservation
*19.2 The Axial Current in Four Dimensions
..........659
The Current Operator Equation; Triangle Diagrams:
Chira!
Transformation of the Functional Integral
*19.3 Goldstone Bosons and Chirai Symmetries in QCD
.....667
Spontaneous Breaking of Chiral Symmetry;
Anomalies of Chiral Currents
*19.4 Chiral Anomalies and Chiral Gauge Theories
.......676
*19.5 Anomalous Breaking of Scale
Invariance
.........682
Problems
.......................686
20
Gauge Theories with Spontaneous Symmetry Breaking
689
20.1
The Higgs Mechanism
.................690
An Abelian Example; Systematics of the Higgs Mechanism:
Non-Abelian Examples: Formal Description
20.2
The Glashow-Weinberg-Salam Theory of Weak Interactions
. 700
Gauge Boson Masses: Coupling to
Fermions:
Experimental
Consequences of the Glashow-Weinberg-Salam Theory;
Fermion Mass Terms: The Higgs Boson: A Higgs Sector?
Contents
*20.3
Symmetries of the Theory of Quarks and Leptons
.....719
Problems
.......................728
21
Quantization of Spontaneously Broken Gauge Theories
731
21.1
The
Щ
Gauges
....................732
An Abelian Example:
ξ
Dependence in Perturbation Theory;
Non-Abelian Analysis
21.2
The
Goldstone
Boson Equivalence Theorem
........743
Formal Aspects of
Goldstone
Boson Equivalence;
Top Quark Decay; e+e~
—>
И ~И ~
*21.3 One-Loop Corrections in Weak-Interaction Gauge Theory
. 758
Theoretical Orientation, and a Specific Problem;
influence of Heavy Quark Corrections: Computation of
Vacuum Polarization Amplitudes: The Effect of mt
Problems
.......................773
Final Project: Decays of the Higgs Boson
....... 775
Epilogue
22
Quantum Field Theory at the Frontier
......... 781
22.1
Strong Strong Interactions
...............782
22.2
Grand Unification and its Paradoxes
...........786
22.3
Exact Solutions in Quantum Field Theory
........791
22.4
Supersymmetry
....................795
22.5
Toward an Ultimate Theory of Nature
..........798
Appendix: Reference Formulae
............. 801
A.I Feyimian Rules
....................801
A.
2
Polarizations of External Particles
............803
A.3 Numerator Algebra
..................805
A.
4
Loop Integrals and Dimensional Regularization
......806
A.
5
Cross Sections and Decay Rates
.............808
A.
6
Physical Constants and Conversion Factors
........809
Bibliography
.......................811
Index
...........................817
*Thcse sections may be omitted in a one-year course emphasizing the less formal
aspects of elementary particle physics.
|
| adam_txt |
Contents
Preface
.xi
Notations and Conventions
.xix
Editor's Foreword
. xxii
Part I: Feynman Diagrams and
Quantum Electrodynamics
Invitation: Pair Production in e+e~ Annihilation
.3
The Klein-Gordon Field
.13
2.1
The Necessity of the Field Viewpoint
.13
2.2
Elements of Classical Field Theory
.15
Lagrangian Field Theory; Hamiltonian Field Theory;
Noether's Theorem
2.3
The Klein-Gordon Field as Harmonic Oscillators
.19
2.4
The Klein-Gordon Field in Space-Time
.25
Causality; The Klein-Gordoti Propagator;
Particle
Création
by a Classical Source
Problems
.33
The Dirac Field
.35
3.1
Lorentz
Invariance
in Wave Equations
.35
3.2
The Dirac Equation
.40
Weyl Spinors
3.3
Free-Particle Solutions of the Dirac Equation
.45
Spin Sums
3.4
Dirac Matrices and Dirac Field Bilinears
.49
3.5
Quantization of the Dirac Field
.52
Spin and Statistics; The Dirac Propagator
3.6
Discrete Symmetries of the Dirac Theory
.64
Parity; Time Reversal: Charge Conjugation
Problems
.71
vi
Contents
4
Interacting Fields and Feynman Diagrams
. 77
4.1
Perturbation Theory
—
Philosophy and Examples
. 77
4.2
Perturbation Expansion of Correlation Functions
. 82
4.3
Wick's Theorem
. 88
4.4
Feynman Diagrams
. 90
4.5
Cross Sections and the ¿'-Matrix
. 99
4.6
Computing S-Matrix Elements from Feynman Diagrams
. . 108
4.7
Feynman Rules for
Fermions
.: 115
Yukawa Theory
4.8
Feynman Rules for Quantum Electrodynamics
. 123
Tie Coulomb Potential
Problems
. 126
5
Elementary Processes of Quantum Electrodynamics
. . 131
5.1
e+e~
—>
μ+ μ~:
Introduction
.131
Trace Technology: Unpolarized Cross Section: e+c~
—»
Hadrons
5.2
e+e~
—>
μ+μ~:
Helicity
Structure
.141
5.3
e+e~
—
»μ+μ~:
Nonrelativistic Limit
.146
Bound States: Vector Meson Production and Decay
5.4
Crossing Symmetry
.153
Electron-Muon Scattering:
Mandelstam
Variables
5.5
Compton Scattering
.158
Photon Polarization Sums: The Klein-Nishina Formula:
High-Energy Behavior: Pair Annihilation into Photons
Problems
.169
6
Radiative Corrections: Introduction
. 175
6.1
Soft
Bremsstrahlung.176
Classical Computation: Quantum Computation
6.2
The Electron Vertex Function: Formal Structure
.184
6.3
The Electron Vertex Function: Evaluation
.189
Feynman Parameters: Precision Tests of QED
6.4
The Electron Vertex Function: Infrared Divergence
. 199
*6.5 Summation and Interpretation of Infrared Divergences
. . . 202
Problems
.208
7
Radiative Corrections: Some Formal Developments
. . 211
7.1
Field-Strength Renormalization
.211
The Electron Self-Energy
7.2
The LSZ Reduction Formula
.222
7.3
The Optical Theorem
.230
The Optical Theorem for Feynman Diagrams: Unstable Particles
7.4
The Ward-Takahashi Identity
.238
7.5
Renormalization of the Electric Charge
.244
Dimensional Regularization
Problems
.257
Final Project: Radiation of Gluon Jets
.259
Contents
vii
Part II: Renormalization
8
Invitation: Ultraviolet Cutoffs and Critical Fluctuations
265
9
Functional Methods
. 275
9.1
Path Integrals in Quantum Mechanics
.275
9.2
Functional Quantization of Scalar Fields
.282
Correlation Functions; Feynman Rules; Functional Derivatives
and the Generating Functional
9.3
Quantum Field Theory and Statistical Mechanics
.292
9.4
Quantization of the Electromagnetic Field
.294
9.5
Functional Quantization of Spinor Fields
.298
Ant ¡commuting Numbers: The Dirac Propagator: Generating
Functional for the Dirac Field: QED: Functional Determinants
*9.6 Symmetries in the Functional Formalism
.306
Equations of Motion: Conservation Laws: The Ward-
Takahashi Identity
Problems
.312
10
Systematics of Renormalization
. 315
10.1
Counting of Ultraviolet Divergences
.315
10.2
Renormalized Perturbation Theory
.323
One-Loop Structure of
0і
Theory
10.3
Renormalization of Quantum Electrodynamics
.330
One-Loop Structure of QED
10.4
Renormalization Beyond the Leading Order
.335
*10.5 A Two-Loop Example
.338
Problems
.344
11
Renormalization and Symmetry
. 347
11.1
Spontaneous Symmetry Breaking
.348
The Linear Sigma Model: Goidstone's Theorem
*11.2 Renormalization and Symmetry: An Explicit Example
. . . 352
*11.3 The Effective Action
.364
*11.4
Computation of the Effective Action
.370
The Effective Action in the Linear Sigma. Model
*11.5 The Effective Action as a Generating Functional
.379
*1
1.6
Renormalization and Symmetry: General Analysis
.383
Goidstone's Theorem Revisited
Problems
.389
12
The Renormalization Group
. 393
12.1
Wilson's Approach to Renormalization Theory
.394
12.2
The Callan-Symanzik Equation
.406
Renormalization Conditions: The Callan-Symanzik Equation;
Computation of
J
and ~: The Meaning of
3
and
-
Contents
12.3 Evolution
of Coupling Constants
.418
Solution of the Callan-Symanzik Equation: An Application
to QED: Alternatives for the Running of Coupling Constants
*12.4 Renormalization of Local Operators
.428
*12.5 Evolution of Mass Parameters
.432
Critical Exponents: A First Look
Problems
.438
13
Critical Exponents and Scalar Field Theory
. 439
*13.1 Theory of Critical Exponents
.440
Exponents of the Spin Correlation Function: Exponents of
Thermodynamic Functions: Values of the Critical Exponents
*13.2 Critical Behavior in Four Dimensions
.451
*13.3 The Nonlinear Sigma Model
.454
Problems
.466
*Final Project: The Coleman-
Weinberg
Potential
. 469
Part III: Non-Abelian Gauge Theories
14
Invitation: The
Parton
Model of Hadron Structure
. . 473
15
Non-Abelian Gauge
Invariance
. 481
15.1
The Geometry of Gauge
Invariance
.482
15.2
The Yang-Mills Lagrangian
.486
*15.3 The Gauge-Invariant Wilson Loop
.491
15.4
Basic Facts About Lie Algebras
.495
Classification of Lie Algebras: Representations:
The
Casimir
Operator
Problems
.502
16
Quantization of Non-Abelian Gauge Theories
. 505
16.1
Interactions of Non-Abelian Gauge Bosons
.506
Feynman Rules for
Fermions
and Gauge Bosons;
Equality of Coupling Constants: A Flaw in the Argument
16.2
The Faddeev-Popov Lagrangian
.512
16.3
Ghosts and Unitarity
.515
*16.4
BRST
Symmetry
.517
*16.5 One-Loop Divergences of Non-Abelian Gauge Theory
. . . 521
The Gauge Boson Self-Energ}·: The
3
Function:
Relations among Counterterms
*16.6 Asymptotic Freedom: The Background Field Method
. . . 533
16.7
Asymptotic Freedom: A Qualitath'e Explanation
.541
Problems
.544
Contents ix
17 Quantum Chromodynamics. 545
17.1
From
Quarks
to QCD
.545
17.2 e+e~ Annihilation
into Hadrons
.548
Total
Cross Section; The Running of
аѕ:
Gluon Emission
17.3
Deep Inelastic Scattering
.555
Deep Inelastic Neutrino Scattering: The Distribution Functioiis
17.4
Hard-Scattering Processes in Hadron Collisions
.563
Lepton
Pair
Production: Kinematics; Jet Pair Production
17.5
Parton
Evolution
.574
The Equivalent Photon Approximation; Multiple Splittings:
Evolution Equations for QED; The Altarelli-P
'arisi
Equations
17.6
Measurements of as
.593
Problems
.595
18
Operator Products and Effective Vertices
. 599
*18.1 Renormalization of the Quark Mass Parameter
.599
*18.2 QCD Renormalization of the Weak Interactions
.605
*18.3 The Operator Product Expansion
.612
*18.4 Operator Analysis of e+e" Annihilation
.615
*18.5 Operator Analysis of Deep Inelastic Scattering
.621
Kinematics; Expansion of the Operator Product;
The Dispersion Integral; Operator Rescaling: Operator Mixing;
Relation to the Altarelli-Parisi Equations
Problems
.647
19
Perturbation Theory Anomalies
. 651
*19.1 The Axial Current in Two Dimensions
.651
Vacuum Polarization Diagrams.· The Current Operator
Equation: An Example with Fermion Number Nonconservation
*19.2 The Axial Current in Four Dimensions
.659
The Current Operator Equation; Triangle Diagrams:
Chira!
Transformation of the Functional Integral
*19.3 Goldstone Bosons and Chirai Symmetries in QCD
.667
Spontaneous Breaking of Chiral Symmetry;
Anomalies of Chiral Currents
*19.4 Chiral Anomalies and Chiral Gauge Theories
.676
*19.5 Anomalous Breaking of Scale
Invariance
.682
Problems
.686
20
Gauge Theories with Spontaneous Symmetry Breaking
689
20.1
The Higgs Mechanism
.690
An Abelian Example; Systematics of the Higgs Mechanism:
Non-Abelian Examples: Formal Description
20.2
The Glashow-Weinberg-Salam Theory of Weak Interactions
. 700
Gauge Boson Masses: Coupling to
Fermions:
Experimental
Consequences of the Glashow-Weinberg-Salam Theory;
Fermion Mass Terms: The Higgs Boson: A Higgs Sector?
Contents
*20.3
Symmetries of the Theory of Quarks and Leptons
.719
Problems
.728
21
Quantization of Spontaneously Broken Gauge Theories
731
21.1
The
Щ
Gauges
.732
An Abelian Example:
ξ
Dependence in Perturbation Theory;
Non-Abelian Analysis
21.2
The
Goldstone
Boson Equivalence Theorem
.743
Formal Aspects of
Goldstone
Boson Equivalence;
Top Quark Decay; e+e~
—>
И"~И ~
*21.3 One-Loop Corrections in Weak-Interaction Gauge Theory
. 758
Theoretical Orientation, and a Specific Problem;
influence of Heavy Quark Corrections: Computation of
Vacuum Polarization Amplitudes: The Effect of mt
Problems
.773
Final Project: Decays of the Higgs Boson
. 775
Epilogue
22
Quantum Field Theory at the Frontier
. 781
22.1
Strong Strong Interactions
.782
22.2
Grand Unification and its Paradoxes
.786
22.3
Exact Solutions in Quantum Field Theory
.791
22.4
Supersymmetry
.795
22.5
Toward an Ultimate Theory of Nature
.798
Appendix: Reference Formulae
. 801
A.I Feyimian Rules
.801
A.
2
Polarizations of External Particles
.803
A.3 Numerator Algebra
.805
A.
4
Loop Integrals and Dimensional Regularization
.806
A.
5
Cross Sections and Decay Rates
.808
A.
6
Physical Constants and Conversion Factors
.809
Bibliography
.811
Index
.817
*Thcse sections may be omitted in a one-year course emphasizing the less formal
aspects of elementary particle physics. |
| any_adam_object | 1 |
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| author | Peskin, Michael Edward 1951- Schroeder, Daniel V. |
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| bvnumber | BV021684966 |
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| ctrlnum | (OCoLC)254548145 (DE-599)BVBBV021684966 |
| dewey-full | 530.1/43 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 530 - Physics |
| dewey-raw | 530.1/43 |
| dewey-search | 530.1/43 |
| dewey-sort | 3530.1 243 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| discipline_str_mv | Physik |
| edition | [Nachdr.] |
| format | Book |
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| id | DE-604.BV021684966 |
| illustrated | Illustrated |
| index_date | 2024-07-02T15:12:36Z |
| indexdate | 2024-07-09T20:41:37Z |
| institution | BVB |
| isbn | 0201503972 9780201503975 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014899128 |
| oclc_num | 254548145 |
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| physical | XXII, 842 S. graph. Darst. |
| publishDate | 2006 |
| publishDateSearch | 2006 |
| publishDateSort | 2006 |
| publisher | Westview Press |
| record_format | marc |
| series2 | Advanced book program |
| spelling | Peskin, Michael Edward 1951- Verfasser (DE-588)132775271 aut An introduction to quantum field theory Michael E. Peskin ; Daniel V. Schroeder [Nachdr.] Boulder, Col. [u.a.] Westview Press ca. 2006 XXII, 842 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Advanced book program Hier auch später erschienene, unveränderte Nachdrucke Renormierung (DE-588)4128419-7 gnd rswk-swf Quantenfeldtheorie (DE-588)4047984-5 gnd rswk-swf Eichtheorie (DE-588)4122125-4 gnd rswk-swf Feynman-Graph (DE-588)4154291-5 gnd rswk-swf Quantenfeldtheorie (DE-588)4047984-5 s Feynman-Graph (DE-588)4154291-5 s Renormierung (DE-588)4128419-7 s Eichtheorie (DE-588)4122125-4 s DE-604 Schroeder, Daniel V. Verfasser aut Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014899128&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Peskin, Michael Edward 1951- Schroeder, Daniel V. An introduction to quantum field theory Renormierung (DE-588)4128419-7 gnd Quantenfeldtheorie (DE-588)4047984-5 gnd Eichtheorie (DE-588)4122125-4 gnd Feynman-Graph (DE-588)4154291-5 gnd |
| subject_GND | (DE-588)4128419-7 (DE-588)4047984-5 (DE-588)4122125-4 (DE-588)4154291-5 |
| title | An introduction to quantum field theory |
| title_auth | An introduction to quantum field theory |
| title_exact_search | An introduction to quantum field theory |
| title_exact_search_txtP | An introduction to quantum field theory |
| title_full | An introduction to quantum field theory Michael E. Peskin ; Daniel V. Schroeder |
| title_fullStr | An introduction to quantum field theory Michael E. Peskin ; Daniel V. Schroeder |
| title_full_unstemmed | An introduction to quantum field theory Michael E. Peskin ; Daniel V. Schroeder |
| title_short | An introduction to quantum field theory |
| title_sort | an introduction to quantum field theory |
| topic | Renormierung (DE-588)4128419-7 gnd Quantenfeldtheorie (DE-588)4047984-5 gnd Eichtheorie (DE-588)4122125-4 gnd Feynman-Graph (DE-588)4154291-5 gnd |
| topic_facet | Renormierung Quantenfeldtheorie Eichtheorie Feynman-Graph |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014899128&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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