半导体物理电子学(第二版)
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作者: (美)李(Li,S.S.) 编著
出 版 社: 科学出版社
出版时间: 2008-2-1字数: 854000版次: 1页数: 697印刷时间: 2008/02/01开本: 16开印次: 1纸张: 胶版纸I S B N : 9787030209405包装: 精装内容简介
本书全面介绍了半导体物理的基本内容,这些内容是理解半导体的物理性质和光电器件制备原理的基础。本书系统性强,合理地安排了物理原理,表征法以及半导体材料和器件的应用等内容,兼顾了物理学家、材料学家和设备工程师的需求。本书反映了半导体技术在过去十年的进步,包括许多新出现并已进入市场的半导体器件。本书适合于电子工程,材料科学,物理和化学工程的研究生,也可供半导体工业的过程工程师和设备工程师参考。
目录
Preface
1.Classification of Solids and Crystal Structure
1.1Introduction
1.2The Bravais Lattice
1.3The Crystal Structure
1.4Miller Indices and Crystal Planes
1.5The Reciprocal Lattice and Brillouin Zone
1.6Types of Crystal Bindings
1.7Defects in a Crystalline Solid
Problems
Bibliography
2.Lattice Dynamics
2.1Introduction
2.2The One-Dimensional Linear Chain
2.3Dispersion Relation for a Three-Dimensional Lattice
2.4The Concept of Phonons
2.5The Density of States and Lattice Spectrum
2.6Lattice Specific Heat
Problems
References
Bibliography
3.Semiconductor Statistics
3.1Introduction
3.2Maxwell-Boltzmann Statistics
3.3Fermi-Dirac Statistics
3.4Bose-Einstein Statistics
3.5Statistics for the Shallow-Impurity States in a Semiconductor
Problems
Bibliography
4.Energy Band Theory
4.1Introduction
4.2Basic Quantum Concepts and Wave Mechanics
4.3The Bloch-Floquet Theorem
4.4The Kronig-Penney Model
4.5The Nearly Free Electron Approximation
4.6The Tight-Binding Approximation
4.7Energy Band Structures for Some Semiconductors
4.8The Effective Mass Concept for Electrons and Holes
4.9Energy Band Structures and Density of States for Low-Dimensional Systems
Problems
References
Bibliography
5.Equilibrium Properties of Semiconductors
5.1Introduction
5.2Densities of Electrons and Holes in a Semiconductor
5.3Intrinsic Semiconductors
5.4Extrinsic Semiconductors
5.5Ionization Energies of Shallow-and Deep-Level Impurities
5.6Hall Effect,Electrical Conductivity,and Hall Mobility
5.7Heavy Doping Effects in a Degenerate Semiconductor
Problems
References
Bibliography
6.Excess Carrier Phenomenon in Semiconductors
6.1Introduction
6.2Nonradiative Recombination: The Shockley-Read-Hall Model
6.3Band-to-Band Radiative Recombination
6.4Band-to-Band Auger Recombination
6.5Basic Semiconductor Equations
6.6The Charge-Neutrality Equation
6.7The Haynes-Shockley Experiment
6.8The Photoconductivity Decay Experiment
6.9Surface States and Surface Recombination Velocity
6.10 Deep-Level Transient Spectroscopy Technique
6.11 Surface Photovoltage Technique
Problems
References
Bibliography
7.Transport Properties of Semiconductors
8.Scattering Mechanisms and Carrier Moblities in Semiconductors
9.Optical Properties and Photoelectric Effects
10.Metal-Semiconductor Contacts
11.P-n Junction Diodes
12.Solar Cells and Photodetectors
13.Light-Emitting Devices
14.Bipolar Juction Transistors
15.Metal-Oxide-Semiconductor Field-Effect Transistors
16.High-Speed Ⅲ-Ⅴ Semiconductor Devices
Solutions to Selected Problems
Appendix
Index