內容大鋼
艾克拿默編著的《固體物理學》內容介紹:In selecting the material and the presentation of this textbook I was aiming at the advanced undergraduate/first year graduate level, or so I was intending. Chapters 1-8 (with some possible omissions and additions, depending on the students' interests and the instructor's preferences) can serve as the core of a senior undergraduate course on Solid State Physics addressed to students in Physics, Chemistry, Materials Science, and Engineering. The book is designed to serve also as a textbook in, a first-year graduate course on the Physics of Solids. Some familiarity with Electromagnetism, Quantum Mechanics, and Statistical Physics is assumed; anyway, extensive outlines of these subjects are presented in Appendices A, B, and C, respectively.
目錄
Part ⅠAn Overview
1 Basic Principles Summarized
1.1 The Atomic Idea: From ElementaryParticles to Solids
1.2 Permanent (i.e., Equilibrium) Structures of Matter Correspond to the Minimum of Their (Free) Energy
1.3 Condensed Matter Tends to Collapse Under the Influence of Coulomb Potential Energy
1.4 Quantum Kinetic Energy Counterbalances Coulomb Potential Energy Leading to Stable Equilibrium Structures
1.4.1 Heisenberg's Uncertainty Principle and the Minimum Kinetic Energy
1.4.2 Pauli's Exclusion Principle and the Enhancement of the Minimum Kinetic Energy
1.4.3 Schrodinger's Spectral Discreteness and the Rigidity of the Ground State
1.5Dimensional Analysis
1.6 Key Points ,
1.7Questions and Problems
2 Basic Principles in Action
2.1Size and Energy Scale of Atoms
2.2 Why do Atoms Come Together to Form Molecules and Solids?
2.3 Ionic Motion:- Small Oscillations
2.4 Why do the Specific Heats of Solids go to Zero as T→OK?
2.5When is Classical Mechanics Adequate?
2.6 Estimating Magnitudes Through Dimensional Analysis
2.6.1Atomic Radius, Ra
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Part Ⅱ Two Simple Models for Solids
Part Ⅲ More About Periodicity & its Consequences
Part Ⅳ Materials
Part Ⅴ Deviations from Periodicity
Part Ⅵ Correlated Systems
Part Ⅶ Appendices
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