文章插图
半导体光学【半导体光学】《半导体光学 》是中国人民大学出版社出版的图书 。本书涉及物理学、材料科学和光电子学等相关领域,对红外光-可见光-紫外光範围内的半导体光学进行了详细讲解 。
基本介绍书名:半导体光学
作者:(德)克林舍恩
ISBN:9787030187857
出版社:科学出版社
出版时间:2007年4月
装帧:精装
版次:3
简介本书在第二版基础上进行了更新和扩展,对红外光-可见光-紫外光範围内的半导体光学作了回顾和总结,内容包括:线性和非线性光学性质,动力学特性,磁光学和电光学,强激励效应,一些套用、实验技术和群理论 。本书的数学知识基础、简单,读者可以直观理解实验结果和所用到的处理技术 。新增(或修改)的内容包括一些最新的进展:空腔极化、光子结构、半导体Bloch方程,并对大块材料相关的章节进行了修改和更新 。本书目录1 Introduction1.1 Aims and Concepts1.2 Outline of the Book and a lot of References1.3 Some Personal Thoughts1.4 ProblemsReferences to Chap. I2 Maxwell's Equations, Photons and the Density of States2.1 Maxwell's Equations2.2 Electromagnetic Radiation in Vacuum2.3 Electromagnetic Radiation in Matter; Linear Optics2.4 Transverse, Longitudinal and Surface Waves2.5 Photons and Some Aspects of Quantum Mechanics and of Dispersion Relations2.6 Density of States and Occupation Probabilities2.7 ProblemsReferences to Chap. 23 Interaction of Light with Matter3.1 Macroscopic Aspects for Solids3.2 Microscopic Aspects3.3 Problems References to Chap. 34 Ensemble of Uncoupled Oscillators4.1 Equations of Motion and the Dielectric Function4.2 Corrections Due to Quantum Mechanics and Local Fields4.3 Spectra of the Dielectric Function and of the Complex Index of Refraction4.4 The Spectra of Reflection and Transmission4.5 Interaction of Close Lying Resonances4.6 ProblemsReferences to Chap. 45 The Concept of Polaritons5.1 Polaritons as New Quasiparticles5.2 Dispersion Relation of Polaritons5.3 Polaritons in Solids, Liquids and Gases and from the IR to the X-ray Region5.4 Coupled Oscillators and Polaritons with Spatial Dispersion5.5 Real and Imaginary Parts of Wave Vector and Frequency5.6 Surface Polaritons5.7 ProblemsReferences to Chap. 56 Kramers-Kronig Relations6.1 General Concepts6.2 ProblemReferences to Chap. 67 Crystals, Lattices, Lattice Vibrations and Phonons7.1 Adiabatic Approximation7.2 Lattices and Crystal Structures in Real and Reciprocal Space7.3 Vibrations of a String7.4 Linear Chains7.5 Three-Dimensional Crystals7.6 Quantization of Lattice Vibrations:Phonons and the Concept of Quasiparticles7.7 The Density of States and Phonon Statistics7.8 P honons in Alloys7.9 Defects and Localized Phonon Modes7.10 Phonons in Superlattices and in other Structures of Reduced Dimensionality7.11 ProblemsReferences to Chap. 78 Electrons in a Periodic Crystal8.1 Bloch's Theorem8.2 Metals, Semiconductors, Insulators 8.3 An Overview of Semiconducting Materials8.4 Electrons and Holes in Crystals as New Quasiparticles8.5 The Effective-Mass Concept8.6 The Polaron Concept and Other Electron-Phonon Interaction Processes8.7 Some Basic Approaches to Band Structure Calculations8.8 Bandstructures of Real Semiconductors8.9 Density of States, Occupation Probability and Critical Points8.10 Electrons and Holes in Quantum Wells and Superlattices8.11 Growth of Quantum Wells and of Superlattices8.12 Quantum Wires8.13 Quantum Dots8.14 Defects, Defect States and Doping8.15 Disordered Systems and Localization8.16 ProblemsReferences to Chap. 89 Excitons Biexcitons and Trions9.1 Wannier and Frenkel Excitons9.2 Corrections to the Simple Exciton Model9.3 The Influence of Dimensionality9.4 Biexcitons and Trions9.5 Bound Exciton Complexes9.6 Excitons in Disordered Systems9.7 ProblemsReferences to Chap. 910 Plasmons, Magnons and some Further Elementary Excitations10.1 Plasmons, Pair Excitations and Plasmon-Phonon Mixed States10.2 Magnons and Magnetic Polarons10.3 ProblemsReferences to Chap. 1011 Optical Properties of Phonons11.1 Phonons in Bulk Semiconductors11.2 Phonons in Superlattices11.3 Phonons in Quantum Dots 11.4 ProblemsReferences to Chap. 1112 Optical Properties of Plasmons,Plasmon-Phonon Mixed States and of Magnons12.1 Surface Plasmons12.2 Plasmon-Phonon Mixed States12.3 Plasmons in Systems of Reduced Dimensionality12.4 Optical Properties of Magnons12.5 ProblemsReferences to Chap. 1213 Optical Properties of Intrinsic Excitons in Bulk Semiconductors13.1 Excitons with strong Oscillator Strength13.2 Forbidden Exciton Transitions13.3 Intraexcitonic Transitions13.4 ProblemsReferences to Chap.1314 Optical Properties of Bound and Localized Excitons and of Defect States14.1 Bound-Exciton and Multi-exciton Complexes14.2 Donor-Acceptor Pairs and Related Transitions14.3 Internal Transitions and Deep Centers14.4 Excitons in Disordered Systems14.5 ProblemsReferences to Chap. 1415 Optical Properties of Excitons in Structures of Reduced Dimensionality15.1 Qantum Wells15.2 Coupled Quantum Wells and Superlattices15.3 Quantum Wires15.4 Quantum Dots15.5 ProblemsReferences to Chap. 1516 Excitons Under the Influence of External Fields16.1 Magnetic Fields16.2 Electric Fields16.3 Strain Fields16.4 ProblemsReferences to Chap. 1617 From Cavity Polaritons to Photonic Crystals 17.1 Cavity Polaritons17.2 Photonic Crystals and Photonic Band Gap Structures17.3 Photonic Atoms, Molecules and Crystals17.4 Further Developments of Photonic Crystals17.5 A Few Words about Metamaterials17.6 ProblemsReferences to Chap. 1718 Review of the Linear Optical Properties18.1 Review of the Linear Optical Properties18.2 ProblemReferences to Chap. 1819 High Excitation Effects and Nonlinear Optics19.1 Introduction and Definition19.2 General Scenario for High Excitation Effects19.3 Beyond the X(n) Approximations19.4 ProblemsReferences to Chap. 1920 The Intermediate Density Regime20.1 Two-Photon Absorption by Excitons20.2 Elastic and Inelastic Scattering Processes20.3 Biexcitons and Trions20.4 Optical or ac Stark Effect20.5 Excitonic Bose-Einstein Condensation20.6 Photo-thermal Optical Nonlinearities20.7 ProblemsReferences to Chap. 2021 The Electron-Hole Plasma21.1 The Mott Density21.2 Band Gap Renormalization and Phase Diagram21.3 Electron-Hole Plasmas in Bulk Semiconductors21.4 Electron-Hole Plasma in Structures of Reduced Dimensionality21.5 Inter-subband Transitions in Unipolar and Bipolar Plasmas21.6 ProblemsReferences to Chap. 21 22 Stimulated Emission and Laser Processes22.1 Excitonic Processes22.2 Electron-Hole Plasmas22.3 Basic Concepts of Laser Diodes and Present Research Trends22.4 ProblemsReferences to Chap. 2223 Time Resolved Spectroscopy23.1 The Basic Time Constants23.2 Decoherence and Phase Relaxation23.3 Intra-Subband and Inter-Subband Relaxation23.4 Interband Recombination23.5 ProblemsReferences to Chap. 2324 Optical Bistability, Optical Computing, Spintronics and Quantum Computing24.1 Optical Bistability24.2 Device Ideas, Digital Optical Computing and Why It Failed24.3 Spintronics24.4 Quantum Computing24.5 ProblemsReferences to Chap. 2425 Experimental Methods25.1 Linear Optical Spectroscopy25.2 Nonlinear Optical Spectroscopy25.3 Time-Resolved Spectroscopy25.4 Spatially Resolved Spectroscopy25.5 Spectroscopy Under the Influence of External Fields25.6 ProblemsReferences to Chap. 2526 Group Theory in Semiconductor Optics26.1 Introductory Remarks26.2 Some Aspects of Abstract Group Theory for Crystals26.3 Theory of Representations and of Characters26.4 Hamilton Operator and Group Theory26.5 Applications to Semiconductors Optics 26.6 Some Selected Group Tables26.7 ProblemsReferences to Chap. 2627 Semiconductor Bloch Equations27.1 Dynamics of a Two-Level System27.2 Optical Bloch Equations27.3 Semiconductor Bloch Equations27.4 Coherent Processes27.5 ProblemsReferences to Chap. 27The Final ProblemSubject Index