书籍详情
固态理论原理(第2版 英文版)
作者:(英)齐曼 著
出版社:世界图书出版公司
出版时间:2006-10-01
ISBN:9787506282260
定价:¥58.00
购买这本书可以去
内容简介
这是一部久负盛名的固体理论研究生教材。本书初版于1964年,经过充分地补充修订,于1972年出版了第2版。到目前为上,该书已有11个印次,这足以说明本书的受欢迎程度。本书已有德语、意大利语、西班牙语、日语、波兰语和俄语等多个泽本,由此也可说明本书的价值。本书详细介绍了理想晶态固体物理的基础理论。作者清晰地阐述了固态系统中丰富现象背的理论原理,内容涵盖了固体理论的几乎所有领域,从周期结构到声子、电子、输运性质、磁光性质和超导电性等等。本书有如下特色:(1)用简单明了的数学公式来描述物理理论,以便加深读者对物理概念,的理解。书中许多重要的数学推导需要读者自己完成,这对理论物理专业的读者尤为重要。(2)以连贯统一的风格描述了固体理论中许多基本概念,书中论述的知,识要点,重在启发读者的物理直觉,极富可读性和进阶性。(3)作者是一位理论物理学家,但本书很注重理论与实验相结合,并揭示了实验现象背后的物理原理。因此也被许多实验物理学家推崇。(4)作者的著作和他的论文一样,均以简明清晰而著称。作者的文笔很好,幽默诙階的笔调能够引起改者的阅读兴趣。阅读本书要求读者具备一定力学和固体物理学的基础知识,适用于理论物理学、凝聚物理学、凝聚态物理学和材料学等专业的高年级本科生、研究生和相关专业的科研人员。
作者简介
齐曼,英国皇家学会会员。曾任英国布里斯托尔大学物理系主任,并创建了该系的理论物理研究所。他是态固体运输性质、无序固体和液态金属的量子理论以及超导等领域的先驱,是一位值得尊敬的理论物理学家。
目录
Chapter 1. Periodic Structures
1.1 Translational symmetry
1.2 Periodic functions
1.3 Properties of the reciprocal lattice
1.4 Bloch's theorem
1.5 Reduction to a Brillouin zone
1.6 Boundary conditions: counting states
Chapter 2. Lattice Waves
2.1 Lattice dynamics
2.2 Properties of lattice waves
2.3 Lattice sums
2.4 Lattice Speeific heat
2.5 Lattice spectrum
2.6 Diffraction by an ideal crystal
2.7 Diffraction by crystal with lattice vibrations
2.8 Phonons
2.9 The Debye-Waller factor
2.10 Anharmonicity and thermal expansion
2.11 Phonon-phonon interaction
2.12 Vibrations of imperfect lattices
Chapter 3. Electron States
3.1 Free electrons
3.2 Diffraction of valence electrons
3.3 The nearly-free-electron model
3.4 The tight-binding method
3.5 Cellular methods
3.6 Orthogonalized plane waves
3.7 Augmented plane waves
3.8 The Green function method
3.9 Model pseudo-potentials
3.10 Resonance bands
3.11 Crystal symmetry and spin-orbit interaction
Chapter 4. Static Properties of Solids
4.1 Types of solid: band picture
4.2 Types of solid: bond picture
4.3 Cohesion
4.4 Rigid band model and density of states
4.5 Fermi statistics of electrons
4.6 Statistics of carriers in a semicon(luctor
4.7 Electronic specific heat
Chapter 5. Electron-Electron Interaction
5.1 Perturbation formulation
5.2 Static screening
5.3 Screened impurities and neutral pseudo-atoms
5.4 The singularity in the screening: Kohn effect
5.5 The Friedel sum rule
5.6 Dielectric constant of a semiconductor -
5.7 Plasma oscillations
5.8 Quasi-particles and cohesive energy
5.9 The Mort transition
Chapter 6. Dynamics of Electrons
6.1 General principles
6.2 Wannier fimctions
6.3 Equations of motion in the Wannier representation
……
Chapter 7. Transport Properties
Chapter 8. Optical Properties
Chapter 9. The Fermi Surface
Chapter 10. Magnetism
Chapter 11. Superconductivity
Bibliography
Index
1.1 Translational symmetry
1.2 Periodic functions
1.3 Properties of the reciprocal lattice
1.4 Bloch's theorem
1.5 Reduction to a Brillouin zone
1.6 Boundary conditions: counting states
Chapter 2. Lattice Waves
2.1 Lattice dynamics
2.2 Properties of lattice waves
2.3 Lattice sums
2.4 Lattice Speeific heat
2.5 Lattice spectrum
2.6 Diffraction by an ideal crystal
2.7 Diffraction by crystal with lattice vibrations
2.8 Phonons
2.9 The Debye-Waller factor
2.10 Anharmonicity and thermal expansion
2.11 Phonon-phonon interaction
2.12 Vibrations of imperfect lattices
Chapter 3. Electron States
3.1 Free electrons
3.2 Diffraction of valence electrons
3.3 The nearly-free-electron model
3.4 The tight-binding method
3.5 Cellular methods
3.6 Orthogonalized plane waves
3.7 Augmented plane waves
3.8 The Green function method
3.9 Model pseudo-potentials
3.10 Resonance bands
3.11 Crystal symmetry and spin-orbit interaction
Chapter 4. Static Properties of Solids
4.1 Types of solid: band picture
4.2 Types of solid: bond picture
4.3 Cohesion
4.4 Rigid band model and density of states
4.5 Fermi statistics of electrons
4.6 Statistics of carriers in a semicon(luctor
4.7 Electronic specific heat
Chapter 5. Electron-Electron Interaction
5.1 Perturbation formulation
5.2 Static screening
5.3 Screened impurities and neutral pseudo-atoms
5.4 The singularity in the screening: Kohn effect
5.5 The Friedel sum rule
5.6 Dielectric constant of a semiconductor -
5.7 Plasma oscillations
5.8 Quasi-particles and cohesive energy
5.9 The Mort transition
Chapter 6. Dynamics of Electrons
6.1 General principles
6.2 Wannier fimctions
6.3 Equations of motion in the Wannier representation
……
Chapter 7. Transport Properties
Chapter 8. Optical Properties
Chapter 9. The Fermi Surface
Chapter 10. Magnetism
Chapter 11. Superconductivity
Bibliography
Index
猜您喜欢