描述
开 本: 24开纸 张: 胶版纸包 装: 平装是否套装: 否国际标准书号ISBN: 9787510047077
内容简介
《高等量子力学(第4版)》讨论了非相对论多粒子系统、相对论波方程和相对论量子场论。它的*特点是数学知识背景讨论曲面、大量的应用案例和练习,帮助读者全面了解这个科目。《高等量子力学(第4版)》的内容为更深层次学习固态物理学、核物理和基本粒子物理学奠定了基础。《高等量子力学(第4版)》扩展和弥补了作者的《量子力学入门》,那本《量子力学入门》包括了非相对论量子力学,简短介绍了非相对论放射场量子化。在这第四版中增加了不少新的材料并在内容上做了不少更新,在图表的陈列上也达到了格式统一,使得在理解上更加容易。目次:(部分)非相对论多粒子系统:二次量子化;1/2旋转费米子;波色子;相关函数,散射和响应;(第二部分)相对论波方程:相对论波方程及其衍生;lorentz变换和dirac方程协方差;轨道角动量和旋转;colomb势能;foldy-wouthuysen变换和相对论修正;dirac方程解的物理解释;dirac方程的对称和更多性质;(第三部分)相对场:相对场的量子化;自由场;放射场的量子化;相互场,量子电动力学。
读者对象:物理专业的高年级研究生和更高层的科研人员。
目 录
目录
《高等量子力学(第4版)(英文影印版)》
part i. nonrelativistic many-particle systems
1. second quantization
1.1 identical particles, many-particle states, and permutation
symmetry
1.2 completely symmetric and antisymmetric states
1.3 bosons
1.4 fermions
1.5 field operators
1.6 momentum representation problems
2. spin-1/2 fermions
2.1 noninteracting fermions
2.2 ground state energy and elementary theory of the electron
gas
2.3 hartree-fock equations for atoms problems
3. bosons
3.1 free bosons
3.2 weakly interacting, dilute bose gas
problems
4. correlation functions, scattering, and response
4.1 scattering and response
4.2 density matrix, correlation functions
part i. nonrelativistic many-particle systems
1. second quantization
1.1 identical particles, many-particle states, and permutation
symmetry
1.2 completely symmetric and antisymmetric states
1.3 bosons
1.4 fermions
1.5 field operators
1.6 momentum representation problems
2. spin-1/2 fermions
2.1 noninteracting fermions
2.2 ground state energy and elementary theory of the electron
gas
2.3 hartree-fock equations for atoms problems
3. bosons
3.1 free bosons
3.2 weakly interacting, dilute bose gas
problems
4. correlation functions, scattering, and response
4.1 scattering and response
4.2 density matrix, correlation functions
.4.3 dynamical
susceptibility
4.4 dispersion relations
4.5 spectral representation
4.6 fluctuation-dissipation theorem
4.7 examples of applications
4.8 symmetry properties
4.9 sum rules
problems
bibliography for part i
part ii. relativistic wave equations
5. relativistic wave equations and their derivation
5.1 introduction
5.2 the klein-gordon equation
5.3 dirac equation
problems
6. lorentz transformations and covariance of the dirac
equation
6.1 lorentz transformations
6.2 lorentz covariance of the dirac equation
6.3 solutions of the dirac equation for free particles
problems
7. orbital angular momentum and spin
7.1 passive and active transformations
7.2 rotations and angular momentum
problems
8. the coulomb potential
8.1 klein-gordon equation with electromagnetic field
8.2 dirac equation for the coulomb potential
problems
9. the foldy-wouthuysen transformation and relativistic
corrections
9.1 the foldy-wouthuysen transformation
9.2 relativistic corrections and the lamb shift
problems
10. physical interpretation of the solutions to the dirac
equation
10.1 wave packets and “zitterbewegung”
10.2 the hole theory
problems
11. symmetries and further properties of the dirac equation
11.1 active and passive transformations, transformations of
vectors
11.2 invariance and conservation laws
11.3 charge conjugation
11.4 time reversal (motion reversal)
11.5 helicity
11.6 zero-mass fermions (neutrinos)
problems
bibliography for part ii
part iii. relativistic fields
12. quantization of relativistic fields
12.1 coupled oscillators, the linear chain, lattice
vibrations
12.2 classical field theory
12.3 canonical quantization
12.4 symmetries and conservation laws, noether’s theorem
problems
13. free fields
13.1 the real klein-gordon field
13.2 the complex klein-gordon field
13.3 quantization of the dirac field
13.4 the spin statistics theorem
problems
14. quantization of the radiation field
14.1 classical electrodynamics
14.2 the coulomb gauge
14.3 the lagrangian density for the electromagnetic field
14.4 the free electromagnatic field and its quantization
14.5 calculation of the photon propagator
problems
15. interacting fields, quantum electrodynamics
15.1 lagrangians, interacting fields
15.2 the interaction representation, perturbation theory
15.3 the s matrix
15.4 wick’s theorem
15.5 simple scattering processes, feynman diagrams
15.6 radiative corrections
problems
bibliography for part iii
appendix
a alternative derivation of the dirac. equation
b dirac matrices
c projection operators for the spin
d the path-integral representation of quantum mechanics
e covariant quantization of the electromagnetic field, the
gupta-bleuler method
f coupling of charged scalar mesons to the electromagnetic
field
index
susceptibility
4.4 dispersion relations
4.5 spectral representation
4.6 fluctuation-dissipation theorem
4.7 examples of applications
4.8 symmetry properties
4.9 sum rules
problems
bibliography for part i
part ii. relativistic wave equations
5. relativistic wave equations and their derivation
5.1 introduction
5.2 the klein-gordon equation
5.3 dirac equation
problems
6. lorentz transformations and covariance of the dirac
equation
6.1 lorentz transformations
6.2 lorentz covariance of the dirac equation
6.3 solutions of the dirac equation for free particles
problems
7. orbital angular momentum and spin
7.1 passive and active transformations
7.2 rotations and angular momentum
problems
8. the coulomb potential
8.1 klein-gordon equation with electromagnetic field
8.2 dirac equation for the coulomb potential
problems
9. the foldy-wouthuysen transformation and relativistic
corrections
9.1 the foldy-wouthuysen transformation
9.2 relativistic corrections and the lamb shift
problems
10. physical interpretation of the solutions to the dirac
equation
10.1 wave packets and “zitterbewegung”
10.2 the hole theory
problems
11. symmetries and further properties of the dirac equation
11.1 active and passive transformations, transformations of
vectors
11.2 invariance and conservation laws
11.3 charge conjugation
11.4 time reversal (motion reversal)
11.5 helicity
11.6 zero-mass fermions (neutrinos)
problems
bibliography for part ii
part iii. relativistic fields
12. quantization of relativistic fields
12.1 coupled oscillators, the linear chain, lattice
vibrations
12.2 classical field theory
12.3 canonical quantization
12.4 symmetries and conservation laws, noether’s theorem
problems
13. free fields
13.1 the real klein-gordon field
13.2 the complex klein-gordon field
13.3 quantization of the dirac field
13.4 the spin statistics theorem
problems
14. quantization of the radiation field
14.1 classical electrodynamics
14.2 the coulomb gauge
14.3 the lagrangian density for the electromagnetic field
14.4 the free electromagnatic field and its quantization
14.5 calculation of the photon propagator
problems
15. interacting fields, quantum electrodynamics
15.1 lagrangians, interacting fields
15.2 the interaction representation, perturbation theory
15.3 the s matrix
15.4 wick’s theorem
15.5 simple scattering processes, feynman diagrams
15.6 radiative corrections
problems
bibliography for part iii
appendix
a alternative derivation of the dirac. equation
b dirac matrices
c projection operators for the spin
d the path-integral representation of quantum mechanics
e covariant quantization of the electromagnetic field, the
gupta-bleuler method
f coupling of charged scalar mesons to the electromagnetic
field
index
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