最 低 价:¥635.00
定 价:¥747.00
作 者:Vladimir A. Bordovitsyn,I. M. Ternov 著 著
出 版 社:东南大学出版社
出版时间:1999-12-1
I S B N:9789810231569
| Preface Introduction 1 Classical Theory of Synchrotron Radiation 1.1 Electromagnetic Fields of Relativistic Charge 1.2 The Wave Zone and Covariant Definition of Radiation 1.3 Angular Distribution of Instantaneous Radiation Power 1.4 Linearly Polarized SR and Its Angular Distribution 1.5 Electron Radiation in a Uniform Magnetic Field 1.6 Spectral-Angular Distribution and Circular Polarization of SR 1.6.1 General Information 1.6.2 Fourier-Components of Radiation Fields 1.6.3 Schott's Formula 1.6.4 Spectral Composition 1.6.5 The Helical Undulator 1.7 SR of the Ultrarelativistic Electron 1.7.1 Radiation of the Ultrarelativistic Charge as SR 1.7.2 Angular Distribution and Linear Polarization of Radiation . . 1.7.3 Spectral Composition and the Circular Polarization of Radiation 1.7.4 Schwinger's Approximation 1.7.5 Limits of Validity of the Classical Theory 1.8 Coherence Properties of SR Bibliography 2 Spin Properties of Relativistic Particles 2.1 Spin Kinematics in the Classical and Quantum Theories 2.2 Physical Interpretation of the Spin Operators 2.3 Classical Spin Equations of Motion 2.4 Quasi-Classical Theory of Spin 2.5 Spin in the Quantum Theory with the Definite Evenness of Operators 2.6 Frenkel-Corben Classical Spin Equations 2.7 Some Exact Solutions of the Spin Equations of Motion 2.7.1 Magnetic Top 2.7.2 Electron in a Constant and Uniform Magnetic Field 2.7.3 Spin-Resonance Solutions 2.7.4 Classical Interpretation of Spin-Flip Transitions 2.8 Spin Integrals of Motion and Invariant Description of Spin States in the External Electromagnetic Field Bibliography 3 Quantum Theory of Synchrotron Radiation 3.1 Scalar Particles in a Magnetic Field. Klein-Gordon Equation 3.2 Electron in a Magnetic Field. Dirac Equation 3.3 Solution of the Dirac Equation for an Electron with a Definite State of Spin Polarization 3.3.1 Longitudinally Polarised Electron 3.3.2 Vector Operator of Transverse Polarization 3.3.3 Tensor Operator of Transverse Polarization 3.3.4 Radial Projection of the Spin 3.4 Matrix Elements of the Dirac Matrices. Some Properties of Laguerre Functions 3.5 Qualitative Estimations for Manifestation of Quantum Effects in SR 3.6 Quantum Effects in Radiation of a Nonrelativistic Electron 3.7 Mathematical Features of the Problem of Radiation of Ultrarelativistic Particles 3.8 Calculation of Angle Integrals 3.9 Calculation of Integrals over Spectrum. Functions Lu and D4 3.10 Radiation of the Electron with the Longitudinally Polarized Spin 3.11 Radiation of the Electron with a Spin Oriented to the Magnetic Field 3.12 Radiation of a Spinless Particle in a Magnetic Field 3.13 Characteristic Features of Electron Radiation in a Magnetic Field 3.14 Radiative Self-Polarization of an Electron Spin 3.15 Radiation of Uncharged Particles with Magnetic and Electric Moments Moving in Uniform Stationary Electromagnetic Fields Bibliography 4 Spin Light 4.1 Introduction 4.2 Classical Theory of p-Radiation 4.2.1 Equations of an Electromagnetic Field 4.2.2 Potentials and Fields of a Relativistic Magneton 4.2.3 Wave Zone and Radiation Field 4.2.4 Total Radiation Power in a Uniform Motion of a Magneton 4.3 Radiation of the Relativistic Magnetic Moment in Uniform Fields 4.3.1 Angular Distribution and Frequency of Radiation …… 5 Undulator Radiation 6 Radiation in Special Electrodynamical Systems 7 Synchrotron Radiation in a Strong Magnetic Field 8 Synchrotron Radiation in Astrophysics Index |
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