內容簡介
《固體理論原理(第2版)》初版於1964年,經過充分地補充修訂,於1972年出版了第2版。到目前為上,該書已有11個印次,這足以說明《固體理論原理(第2版)》的受歡迎程度。《固體理論原理(第2版)》已有德語、義大利語、西班牙語、日語、波蘭語和俄語等多個澤本,由此也可說明《固體理論原理(第2版)》的價值。《固體理論原理(第2版)》詳細介紹了理想晶態固體物理的基礎理論。作者清晰地闡述了固態系統中豐富現象背的理論原理,內容涵蓋了固體理論的幾乎所有領域,從周期結構到聲子、電子、輸運性質、磁光性質和超導電性等等。《固體理論原理(第2版)》有如下特色:(1)用簡單明了的數學公式來描述物理理論,以便加深讀者對物理概念,的理解。書中許多重要的數學推導需要讀者自己完成,這對理論物理專業的讀者尤為重要。(2)以連貫統一的風格描述了固體理論中許多基本概念,書中論述的知,識要點,重在啟發讀者的物理直覺,極富可讀性和進階性。(3)作者是一位
理論物理學家,但《固體理論原理(第2版)》很注重理論與實驗相結合,並揭示了實驗現象背後的物理原理。因此也被許多實驗物理學家推崇。(4)作者的著作和他的論文一樣,均以簡明清晰而著稱。作者的文筆很好,幽默詼階的筆調能夠引起改者的閱讀興趣。閱讀《固體理論原理(第2版)》要求讀者具備一定力學和固體物理學的基礎知識,適用於理論物理學、凝聚物理學、凝聚態物理學和材料學等專業的高年級本科生、研究生和相關專業的科研人員。
作者簡介
目錄
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