作者:(德)W.格雷钠(WalterGre
页数:447
出版社:世界图书出版公司
出版日期:2019
ISBN:9787519261085
电子书格式:pdf/epub/txt
内容简介
德国著名理论物理学家W.Griner等教授撰写的12卷集“理论物理学教科书”,是一套内容完整实用面向大学生和硕士研究生的现代物理学教材。它以系统的、统一的、连贯的方式阐述了现代理论物理学的各个方面。这套教材面世后,在德国产生了巨大的影响,其英文版的及时推出,对全世界理论物理学的教学也起了很好的促进作用。本书内容包括:传播子和散射理论;电子和正电子传播子;量子电动力学方法;概要:量子电动力学的费曼规则;高阶散射矩阵;双粒子系统;强场的量子电动力学;无自旋玻色子的量子电动力学。
作者简介
本书作者W. Griner是德国理论物理学家,著有13卷集的“理论物理学教程”,这套书也让作者享誉全世界,成为全球众多高校物理学高年级本科生和研究生的教材和标准参考用书。
本书特色
德国著名理论物理学家W.Griner等教授撰写的12卷集“理论物理学教科书”,是一套内容完整实用面向大学生和硕士研究生的现代物理学教材。它以系统的、统一的、连贯的方式阐述了现代理论物理学的各个方面。这套教材面世后,在德国产生了巨大的影响,其英文版的及时推出,对全世界理论物理学的教学也起了很好的促进作用。本书内容包括:传播子和散射理论;电子和正电子传播子;量子电动力学方法;概要:量子电动力学的费曼规则;高阶散射矩阵;双粒子系统;强场的量子电动力学;无自旋玻色子的量子电动力学。
目录
1 Propagators and Scattering Theory
1.1 Introduction
1.2 The Nonrelativistic Propagator
1.3 Green’s Function and Propagator
1.4 An Integral Equation for
1.5 Application to Scattering Problems
1.6 The Unitarity of the S Matrix
1.7 Symmetry Properties of the S Matrix
1.8 The Green’s Function in Momentum Representation
1.9 Another Look at the Green’s Function
1.10 Biographical Notes
2 The Propagators for Electrons and Positrons
3 Quantum-Electrodynamical Processes
3.1 Coulomb Scattering of Electrons
3.2 Scattering of an Electron off a Free Proton: The Effect of Recoil
3.3 Scattering of Identical Fermions
3.4 Electron-Positron Scattering
3.5 Scattering of Polarized Dirac Particles
3.6 Bremsstrahlung
3.7 Compton Scattering – The Klein-Nishina Formula
3.8 Annihilation of Particle and Antiparticle
3.9 Biographical Notes
4 Summary: The Feynman Rules of QED
4.1 The Feynman Rules of QED in Momentum Space
4.2 The Photon Propagator in Different Gauges
4.3 Biographical Notes
5 The Scattering Matrix in Higher Orders
5.1 Electron-Positron Scattering in Fourth Order
5.2 Vacuum Polarization
5.3 Self-Energy of the Electron
5.4 The Vertex Correction
5.5 Biographical Notes
6 Two-Particle Systems
6.1 The Bethe-Salpeter Equation
6.2 Biographical Notes
7 Quantum Electrodynamics of Strong Fields
7.1 Strong Fields in Atoms
7.2 Strong Fields in Heavy Ion Collisions
7.3 The Effective Lagrangian of the Electromagnetic Field
7.4 Biographical Notes
8 Quantum Electrodynamics of Spinless Bosons
8.1 The Klein-Gordon Equation
8.2 The Feynman Propagator for Scalar Particles
8.3 The Scattering of Spin-0 Bosons
8.4 The Feynman Rules of Scalar Electrodynamics
Appendix
Subject Index
1.1 Introduction
1.2 The Nonrelativistic Propagator
1.3 Green’s Function and Propagator
1.4 An Integral Equation for
1.5 Application to Scattering Problems
1.6 The Unitarity of the S Matrix
1.7 Symmetry Properties of the S Matrix
1.8 The Green’s Function in Momentum Representation
1.9 Another Look at the Green’s Function
1.10 Biographical Notes
2 The Propagators for Electrons and Positrons
3 Quantum-Electrodynamical Processes
3.1 Coulomb Scattering of Electrons
3.2 Scattering of an Electron off a Free Proton: The Effect of Recoil
3.3 Scattering of Identical Fermions
3.4 Electron-Positron Scattering
3.5 Scattering of Polarized Dirac Particles
3.6 Bremsstrahlung
3.7 Compton Scattering – The Klein-Nishina Formula
3.8 Annihilation of Particle and Antiparticle
3.9 Biographical Notes
4 Summary: The Feynman Rules of QED
4.1 The Feynman Rules of QED in Momentum Space
4.2 The Photon Propagator in Different Gauges
4.3 Biographical Notes
5 The Scattering Matrix in Higher Orders
5.1 Electron-Positron Scattering in Fourth Order
5.2 Vacuum Polarization
5.3 Self-Energy of the Electron
5.4 The Vertex Correction
5.5 Biographical Notes
6 Two-Particle Systems
6.1 The Bethe-Salpeter Equation
6.2 Biographical Notes
7 Quantum Electrodynamics of Strong Fields
7.1 Strong Fields in Atoms
7.2 Strong Fields in Heavy Ion Collisions
7.3 The Effective Lagrangian of the Electromagnetic Field
7.4 Biographical Notes
8 Quantum Electrodynamics of Spinless Bosons
8.1 The Klein-Gordon Equation
8.2 The Feynman Propagator for Scalar Particles
8.3 The Scattering of Spin-0 Bosons
8.4 The Feynman Rules of Scalar Electrodynamics
Appendix
Subject Index
