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『簡體書』固体中的光相互作用 (第二版)(英文影印版)

書城自編碼: 2515511
分類: 簡體書→大陸圖書→自然科學物理學
作 者: [美]迪巴尔托洛 著
國際書號(ISBN): 9787301251720
出版社: 北京大学出版社
出版日期: 2014-12-01
版次: 1 印次: 1
頁數/字數: 612/635000
書度/開本: 16开 釘裝: 平装

售價:NT$ 963

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編輯推薦:
光无疑是这个世界上最重要的东西之一。现在的光源中,固体材料占有很大的比例。《固体中的光相互作用 (第二版)英文影印版》对于各种固体中的光相互作用都进行了细致的讨论,对于相关领域的工作者来说,这本内容丰富、讲解系统的专著无疑是不可错过的佳作。
內容簡介:
《固体中的光相互作用 (第二版)英文影印版》系统而全面地介绍了固体光特性的一些原理。本书为在固体材料吸收和荧光光谱领域,及激光领域工作的科研人员提供了详实的理论背景。通过群论这一工具,以及对于对称性的讨论,本书统一地阐述了辐射场的量子理论、分子热振动、晶体、共价键等内容。
《固体中的光相互作用 (第二版)英文影印版》既适合科研人员参考,也适合研究生和高水平本科生阅读。
關於作者:
(美)迪巴尔托洛,美国波士顿学院教授。
目錄
Preface to the Second Edition
1. Elements of Quantum Mechanics
 1. Review of ClassicalMechanics
 2. Vector Spaces and Linear Operators
 3. Basic Postulates of Quantum Mechanics
 4. Compatible Observables and Complete Set of Commuting Operators
 5. Formof the Operators
 6. Matrix Formalism and Transformation Theory
 7. General Theory of Angular Momentum
 8. Time-Independent Perturbation Theory
 9. Time-Dependent Perturbation Theory References
2. Elements of Group Theory
 1. Properties of a Group
 2. Classes
 3. Theory of Representations
 4. Schur''s Lemma and Orthogonality Relations
 5. Characters of a Group
 6. Properties of the Irreducible Representations of a Group
 7. The Direct Product Representation
 8. Product Groups and Their Representations
 9. Summary of Rules
 10. Groups of Real Orthogonal Matrices
 11. Space Groups and Symmetry of Crystalline Solids
 12. The Irreducible Representations of a Group of Primitive Translations
 13. The Irreducible Representations of Space Groups References
3. Connection of Quantum Mechanics with Group Theory
 1. The Effect of an Orthogonal Coordinate Transformation on the Vectors of a Hilbert Space
 2. The Symmetry Group of the Schr¨odinger Equation
 3. The Fundamental Theorem for Functions and OperatorsTransforming Irreducibly
 4. The Construction of Functions Transforming Irreducibly
 5. The Full Rotational Group and the Quantum Theory of Angular Momentum
 6. The Spin of the Electron and the Double Valued Representations
 7. The Kramers''Degeneracy
 8. The Symmetric Group of the Hamiltonian and the Pauli Principle References
4. The Hydrogen Atom
 1. The Unperturbed Hamiltonian
 2. The Spin-Orbit Interaction
 3. The Zeeman Interaction
 4. Group Theoretical Considerations for the H Atom References
5. The Complex Atom: Multiplet Theory
 1. The Helium Atom
 2. The Many Electron Atom
 3. Group Theoretical Considerations for a Complex Atom
 4. The Energies of Spectral Terms
 5. Hund''s Rules and the Principle of Equivalence of Electrons and Holes
 6. The Spin-Orbit Splitting of Terms
 7. An Example of Spin-Orbit and Zeeman Splitting References
6. The Magnetic Ion in a Crystal: The Role of Symmetry
 1. Bonding in Crystals
 2. The Ionic Bond in Crystals
 3. Electronic Configurations and Properties ofMagnetic Ions
 4. The Crystalline Field Hypothesis References
7. The Weak Field Scheme
 1. The Hamiltonian of the Free Ion
 2. The Crystal Field Perturbation
 3. Application of theWeak Field Scheme
 4. Splittings of J Levels in Fields of Different Symmetries References
8. The Medium Field Scheme
 1. The Hamiltonian of the Free Ion
 2. The Crystal Field Perturbation
 3. The Spin-Orbit Interaction
 4. An Application of the Medium Field Scheme
 5. The Method of Operator Equivalents: The Splitting of Transition Metal Ions Levels in an Octahedral Crystal Field References
9. The Strong Field Scheme
 1. The Unperturbed Hamiltonian
 2. The Crystal Field Perturbation
 3. The Electrostatic Interaction
 4. The Spin-Orbit Interaction
10. Covalent Bonding and Its Effect on Magnetic Ions in Crystals
 1. The Relevance of Covalent Bonding
 2. The Formation of Molecular Orbitals
 3. Example of Molecular Orbitals Formation
 4. The Use of Projection Operators in the Construction ofMolecularOrbitals
 5. The Formation of Hybrids
 6. Hybrids of the Central Ion in a Tetrahedral Complex AB4
 7. Hybrids of the Central Ion in an Octahedral Complex AB6
 8. The Combinations of Ligand Orbitals in an ABn Complex
 9. The Energy Levels of an ABn Complex References
11. The Quantum Theory of the Radiation Field
 1. The Classical Electromagnetic Field
 2. The Quantum Theory of the Electromagnetic Field
12. Molecular Vibrations
 1. The Classical Theory of Molecular Vibrations
 2. The Symmetry of the Molecules and the Normal Coordinates
 3. How to Find the Normal Modes of Vibration
 4. The Use of Symmetry Coordinates
 5. The Quantum Theory of Molecular Vibrations
 6. The Selection Rules for Infrared and Raman Transitions, The Fermi Resonance
 7. The Normal Modes and the Symmetry Coordinates of a Tetrahedral Complex AB4
 8. The Normal Modes and the Symmetry Coordinates of an Octahedral Complex AB6 References
13. Lattice Vibrations
 1. The Geometry of Crystalline Solids
 2. Lattice Vibrations of an Infinite Crystal with One AtomPer Unit Cell
 3. Lattice Vibrations of a Finite Crystal with One AtomPer Unit Cell
 4. Lattice Vibrations of a Crystal with More Than One AtomPer Unit Cell
 5. Thermodynamics of Phonons
 6. Phonons and Photons. Similarities and Differences References
14. The Ion-Photon Interaction: Absorption and Emission of Radiation
 1. The Ion-Radiation Interaction
 2. The Expansion of the Interaction Hamiltonian: Different Types of Radiation
 3. The Density of Final States
 4. The Transition Probability Per Unit Time
 5. Dipole Radiation
 6. Selection Rules for Radiative Transitions
 7. About the Intensities of Radiative Transitions
 8. The Static Effects of the Interaction Between an Atomic System and the Electromagnetic Field References
15. The Judd-Ofelt Theory
 1. Motivation
 2. General Considerations
 3. The Theory
 4. Applications References
16. The Ion-Vibration Interaction. Radiationless Processes, Thermal Shift, and Broadening of Sharp Lines
 1. The Ion-Vibration Interaction
 2. Radiationless Processes in Crystals
 3. Different Types of Line Broadening Mechanisms: Lorentzian and Gaussian Line Shapes
 4. Theory of Thermal Broadening of Sharp Lines
 5. Theory of Thermal Line Shift References
17. Vibrational-Electronic Interaction and Spectra
 1. Introduction
 2. Ion-Vibration Interaction in Molecular Complexes
 3. Vibronic Spectra of Molecular Complexes
 4. Space Groups and Lattice Vibrations
 5. Lattice Absorption in Perfect Crystals
 6. Phonon Activation Due to Impurity Ions in Perfect Crystals
 7. Selection Rules for Vibronic Transitions Due to Magnetic Impurities in Crystals References
18. Energy Transfer Among Ions in Solids
 1. Quantum-Mechanical Treatment of the Interactions Among Atoms
 2. Different Types of Interactions
 3. Modes of Excitation and Transfer
 4. Energy Transfer with No Migration of Excitation Among Donors
 5. Energy Transfer with Migration of Excitation Among Donors References
19. Absorption Spectra of Magnetic Ions in Crystals
 1. The A and B Coefficients as Related to Magnetic Ions in Crystals
 2. General Properties of Absorption Spectra
 3. Absorption Spectra of Magnetic Ions in Crystals
 4. The Effects of Temperature on Absorption Spectra
 5. Excited State Absorption References
20. Fluorescence Spectra of Magnetic Ions in Crystals
 1. The Fluorescence Emission of Magnetic Ions Under Continuous Excitation
 2. The Response of Fluorescent Systems to Transient Excitation
 3. General Properties of the Fluorescence Decays in aMultilevel System
 4. Interactions of Magnetic Ions and Their Effects on the FluorescenceOutput
 5. The Factors Affecting the Fluorescence Emission
 6. Fluorescence of Magnetic Ions in Crystals References
21. Elements of Laser Theory
 1. Laser Conditions
 2. Examples of Ionic Solid State Lasers References
Subject Index

 

 

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