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Publish Date
2001
Publisher
World Scientific,
World Scientific Pub Co Inc
Language
English
Pages
299
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Previews available in: English
Subjects
Maxwell equations, Quantum electrodynamicsShowing 2 featured editions. View all 2 editions?
Edition | Availability |
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1
Modified Maxwell equations in quantum electrodynamics
2001, World Scientific, World Scientific Pub Co Inc
in English
9810247702 9789810247706
|
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Libraries near you:
WorldCat
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2
Modified Maxwell Equations in Quantum Electrodynamics
2001, World Scientific Publishing Co Pte Ltd
in English
9812799656 9789812799654
|
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Libraries near you:
WorldCat
|
Book Details
Table of Contents
Machine generated contents note: PREFACE VII
LIST OF FREQUENTLY USED SYMBOLS XI
1 Introduction
1.1 Maxwell's Equations 1
1.2 Step Function Excitation of Planar TEM Wave 6
1.3 Solutions for the Electric Field Strength 9
1.4 Associated Magnetic Field Strength 13
1.5 Field Strengths with Continuous Time Variation 20
1.6 Modified Maxwell Equations in Potential Form 22
2 Monopole, Dipole, and Multipole Currents
2.1 Electric Monopoles and Dipoles With Constant Mass 27
2.2 Magnetic Monopoles and Dipoles With Constant Mass 37
2.3 Monopoles and Dipoles With Relativistic Variable Mass 44
2.4 Covariance of the Modified Maxwell Equations 53
2.5 Energy and Momentum With Dipole Current Correction 61
3 Hamiltonian Formalism
3.1 Undefined Potentials and Divergent Integrals 68
3.2 Charged Particle in an Electromagnetic Field 78
3.3 Variability of the Mass of a Charged Particle 88
3.4 Steady State Solutions of the Modified Maxwell Equations 98
3.5 Steady State Quantization of the Modified Radiation Field 108
4 Quantization of the Pure Radiation Field
4.1 Radiation Field in Extended Lorentz Gauge 113
4.2 Simplification of Aev((,0) and Amv((, 9) 135
4.3 Hamilton Function for Planar Wave 140
4.4 Quantization of a Planar Wave 147
4.5 Exponential Ramp Function Excitation 150
4.6 Excitation With Rectangular Pulse 158
5 Klein-Gordon Equation and Vacuum Constants
5.1 Modified Klein-Gordon Equation 160
5.2 Planar Wave Solution 168
5.3 Hamilton Function for the Planar Klein-Gordon Wave 179
5.4 Quantization of the Planar Klein-Gordon Wave 184
5.5 Dipole Current Conductivities in Vacuum 187
6 Appendix
6.1 Electric Field Strength Due to Electric Step Function 192
6.2 Magnetic Field Strength Due to Electric Step Function 199
6.3 Excitation by a Magnetic Step Function 210
6.4 Electric Field Strength Due to Electric Ramp Function 216
6.5 Magnetic Field Strength Due to Electric Ramp Function 220
6.6 Component Amz of the Vector Potential 224
6.7 Component Ae of the Vector potential 231
6.8 Choice of p2 1 in Eq.(4.1-85) 238
6.9 Excitation of a Spherical Wave 240
6.10 Better Approximations of Dipole Currents 245
6.11 Evaluation of Eq.(5.3-4) 259
6.12 Calculations for Sections 4.2 and 4.3 271
REFERENCES AND BIBLIOGRAPHY 291
INDEX 297.
Edition Notes
Includes bibliographical references (p. 291-295) and index.
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