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新書推薦： 《 手绘鱼图典藏 》 售價：NT$ 918.0 《 透过地图看欧洲格局：从拿破仑时代到冷战时期 》 售價：NT$ 551.0 《 柳岸居藏日本画 》 售價：NT$ 857.0 《 中国古代科技遗产 》 售價：NT$ 1010.0 《 历史深处的南丝路 一部关于南丝路的纪实性文学作品 》 售價：NT$ 403.0 《 中国航天立体翻翻书 》 售價：NT$ 296.0 《 国家工业密码 》 售價：NT$ 653.0 《 普通法司法管辖区所得税：从起源到1820年上下册 》 售價：NT$ 1010.0

建議一齊購買： + NT$ 360 《大话5G》 + NT$ 398 《微波射频器件和天线的精细设计与实现》 + NT$ 656 《现代天线设计（第2版）》 + NT$ 247 《光电子材料与器件》 內容簡介： 《半导体物理性能手册第1卷英文版》系Springer手册精选原版系列。《半导体物理性能手册第1卷英文版》主要包括Diamond（C）、Silicon（Si）、Germanium（C）、Gray Tin（a—Sn）、Cubic Silicon Carbide（3C—SiC）、Hexagonal Silicon Carbide（2H—，4H—，6H—SiC，etc.）、Rhombohedral Silicon Carbide（15R—，21R—，24R—SiC，etc.）等内容。 目錄： Preface Acknowledgments Contents of Other Volumes 1 Diamond （C） 1.1 Structural Properties 1.1.1 Ionicity 1.1.2 Elemental Isotopic Abundance and Molecular Weight 1.1.3 Crystal Structure and Space Group 1.1.4 Lattice Constant and Its Related Parameters 1.1.5 Structural Phase Transition 1.1.6 Cleavage Plane 1.2 Thermal Properties 1.2.1 Melting Point and Its Related Parameters 1.2.2 Specific Heat 1.2.3 Debye Temperature 1.2.4 Thermal Expansion Coefficient 1.2.5 Thermal Conductivity and Diffusivity 1.3 Elastic Properties 1.3.1 Elastic Constant 1.3.2 Third—Order Elastic Constant 1.3.3 Young''s Modulus， Poisson''s Ratio， and Similar 1.3.4 Microhardness 1.3.5 Sound Velocity 1.4 Phonons and Lattice Vibronic Properties 1.4.1 Phonon Dispersion Relation 1.4.2 Phonon Frequency 1.4.3 Mode Gruneisen Parameter 1.4.4 Phonon Deformation Potential 1.5 Collective Effects and Related Properties 1.5.1 Piezoelectric Constant 1.5.2 Frohlich Coupling Constant 1.6 Energy—Band Structure： Energy—Band Gaps 1.6.1 Basic Properties 1.6.2 E0—Gap Region 1.6.3 Higher—Lying Direct Gap 1.6.4 Lowest Indirect Gap 1.6.5 Conduction—Valley Energy Separation 1.6.6 Direct—Indirect—Gap Transition Pressure 1.7 Energy—Band Structure： Electron and Hole Effective Masses 1.7.1 Electron Effective Mass： Γ Valley 1.7.2 Electron Effective Mass： Satellite Valley 1.7.3 Hole Effective Mass 1.8 Electronic Deformation Potential 1.8.1 Intravalley Deformation Potential： Γ Point 1.8.2 Intravalley Deformation Potential： High—Symmetry Points 1.8.3 Intervalley Deformation Potential 1.9 Electron Affinity and Schottky Barrier Height 1.9.1 Electron Affinity 1.9.2 Schottky Barrier Height 1.10 Optical Properties 1.10.1 Summary of Optical Dispersion Relations 1.10.2 The Reststrahlen Region 1.10.3 At or Near the Fundamental Absorption Edge 1.10.4 The Interband Transition Region 1.10.5 Free—Carrier Absorption and Related Phenomena 1.11 Elastooptic， Electrooptic， and Nonlinear Optical Properties 1.11.1 Elastooptic Effect 1.11.2 Linear Electrooptic Constant 1.11.3 Quadratic Electrooptic Constant 1.11.4 Franz—Keldysh Effect 1.11.5 Nonlinear Optical Constant 1.12 Carrier Transport Properties 1.12.1 Low—Field Mobility： Electrons 1.12.2 Low—Field Mobility： Holes 1.12.3 High—Field Transport： Electrons 1.12.4 High—Field Transport： Holes 1.12.5 Minority—Carrier Transport： Electrons in ρ—Type Materials 1.12.6 Minority—Carrier Transport： Holes in n—Type Materials 1.12.7 Impact Ionization Coefficient 2 Silicon （Si） 2.1 Structural Properties 2.1.1 Ionicity 2.1.2 Elemental Isotopic Abundance and Molecular Weight 2.1.3 Crystal Structure and Space Group 2.1.4 Lattice Constant and Its Related Parameters 2.1.5 Structural Phase Transition 2.1.6 Cleavage Plane 2.2 Thermal Properties 2.2.1 Melting Point and Its Related Parameters 2.2.2 Specific Heat 2.2.3 Debye Temperature 2.2.4 Thermal Expansion Coefficient 2.2.5 Thermal Conductivity and Diffusivity 2.3 Elastic Properties 2.3.1 Elastic Constant 2.3.2 Third—Order Elastic Constant 2.3.3 Young''s Modulus， Poisson''s Ratio， and Similar 2.3.4 Microhardness 2.3.5 Sound Velocity 2.4 Phonons and Lattice Vibronic Properties 2.4.1 Phonon Dispersion Relation 2.4.2 Phonon Frequency 2.4.3 Mode Gruneisen Parameter 2.4.4 Phonon Deformation Potential 2.5 Collective Effects and Related Properties 2.5.1 Piezoelectric Constant 2.5.2 Frohlich Coupling Constant 2.6 Energy—Band Structure： Energy—Band Gaps 2.6.1 Basic Properties 2.6.2 E0—Gap Region 2.6.3 Higher—Lying Direct Gap 2.6.4 Lowest Indirect Gap 2.6.5 Conduction—Valley Energy Separation 2.6.6 Direct—Indirect—Gap Transition Pressure 2.7 Energy—Band Structure： Electron and Hole Effective Masses 2.7.1 Electron Effective Mass： Γ Valley 2.7.2 Electron Effective Mass： Satellite Valley 2.7.3 Hole Effective Mass 2.8 Electronic Deformation Potential 2.8.1 Intravalley Deformation Potential： Γ Point 2.8.2 Intravalley Deformation Potential： High—Symmetry Points 2.8.3 Intervalley Deformation Potential 2.9 Electron Affinity and Schottky Barrier Height 2.9.1 Electron Affinity 2.9.2 Schottky Barrier Height 2.10 Optical Properties 2.10.1 Summary of Optical Dispersion Relations 2.10.2 The Reststrahlen Region 2.10.3 At or Near the Fundamental Absorption Edge 2.10.4 The Interband Transition Region 2.10.5 Free—Carrier Absorption and Related Phenomena 2.11 Elastooptic， Electrooptic， and Nonlinear Optical Properties 2.11.1 Elastooptic Effect 2.11.2 Linear Electrooptic Constant 2.11.3 Quadratic Electrooptic Constant 2.11.4 Franz—Keldysh Effect 2.11.5 Nonlinear Optical Constant 2.12 Carrier Transport Properties 2.12.1 Low—Field Mobility： Electrons 2.12.2 Low—Field Mobility： Holes 2.12.3 High—Field Transport： Electrons 2.12.4 High—Field Transport： Holes 2.12.5 Minority—Carrier Transport： Electrons in p—Type Materials 2.12.6 Minority—Carrier Transport： Holes in n—Type Materials 2.12.7 Impact Ionization Coefficient 3 Germanium （C） 3.1 Structural Properties 3.1.1 Ionicity 3.1.2 Elemental Isotopic Abundance and Molecular Weight 3.1.3 Crystal Structure and Space Group 3.1.4 Lattice Constant and Its Related Parameters 3.1.5 Structural Phase Transition 3.1.6 Cleavage Plane 3.2 Thermal Properties 3.2.1 Melting Point and Its Related Parameters 3.2.2 Specific Heat 3.2.3 Debye Temperature 3.2.4 Thermal Expansion Coefficient 3.2.5 Thermal Conductivity and Diffusivity 3.3 Elastic Properties 3.3，1 Elastic Constant 3.3.2 Third—Order Elastic Constant 3.3.3 Young''s Modulus， Poisson''s Ratio， and Similar 3.3.4 Microhardness 3.3.5 Sound Velocity 3.4 Phonons and Lattice Vibronic Properties 3.4.1 Phonon Dispersion Relation 3.4.2 Phonon Frequency 3.4.3 Mode Gruneisen Parameter 3.4.4 Phonon Deformation Potential 3.5 Collective Effects and Related Properties 3.5.1 Piezoelectric Constant 3.5.2 Frohlich Coupling Constant 3.6 Energy—Band Structure： Energy—Band Gaps 3.6.1 Basic Properties 3.6.2 Eo—Gap Region 3.6.3 Higher—Lying Direct Gap 3.6.4 Lowest Indirect Gap 3.6.5 Conduction—Valley Energy Separation 3.6.6 Direct—Indirect—Gap Transition Pressure 3.7 Energy—Band Structure： Electron and Hole Effective Masses 3.7.1 Electron Effective Mass： F Valiey 3.7.2 Electron Effective Mass： Satellite Valley 3.7.3 Hole Effective Mass 3.8 Electronic Deformation Potential 3.8.1 Intravalley Deformation Potential： Γ Point 3.8.2 Intravalley Deformation Potential： High—Symmetry Points 3.8.3 Intervalley Deformation Potential 3.9 Electron Affinity and Schottky Barrier Height 3.9.1 Electron Affinity 3.9.2 Schottky Barrier Height 3.10 Optical Properties 3.10.1 Summary of Optical Dispersion Relations 3.10.2 The Reststrahlen Region 3.10.3 At or Near the Fundamental Absorption Edge 3.10.4 The Interband Transition Region 3.10.5 Free—Carrier Absorption and Related Phenomena 3.11 Elastooptic， Electrooptic， and Nonlinear Optical Properties 3.11.1 Elastooptic Effect 3.11.2 Linear Electrooptic Constant 3.11.3 Quadratic Electrooptic Constant 3.11.4 Franz—Keldysh Effect 3.11.5 Nonlinear Optical Constant 3.12 Carrier Transport Properties 3.12.1 Low—Field Mobility： Electrons 3.12.2 Low—Field Mobility： Holes 3.12.3 High—Field Transport： Electrons 3.12.4 High—Field Transport： Holes 3.12.5 Minority—Carrier Transport： Electrons in p—Type Materials 3.12.6 Minority—Carrier Transport： Holes in n—Type Materials 3.12.7 Impact Ionization Coefficient 4 Gray Tin （a—Sn） 4.1 Structural Properties 4.1.1 lonicity 4.1.2 Elemental Isotopic Abundance and Molecular Weight 4.1.3 Crystal Structure and Space Group 4.1.4 Lattice Constant and Its Related Parameters 4.1.5 Structural Phase Transition 4.1.6 Cleavage Plane 4.2 Thermal Properties 4.2.1 Melting Point and Its Related Parameters 4.2.2 Specific Heat 4.2.3 Debye Temperature 4.2.4 Thermal Expansion Coefficient 4.2.5 Thermal Conductivity and Diffusivity 4.3 Elastic Properties 4.3.1 Elastic Constant 4.3.2 Third—Order Elastic Constant 4.3.3 Young''s Modulus， Poisson''s Ratio， and Similar 4.3.4 Microhardness 4.3.5 Sound Velocity 4.4 Phonons and Lattice Vibronic Properties 4.4.1 Phonon Dispersion Relation 4.4.2 Phonon Frequency 4.4.3 Mode Gruneisen Parameter 4.4.4 Phonon Deformation Potential 4.5 Collective Effects and Related Properties 4.5.1 Piezoelectric Constant 4.5.2 Frohlich Coupling Constant 4.6 Energy—Band Structure： Energy—Band Gaps 4.6.1 Basic Properties 4.6.2 Eo—Gap Region 4.6.3 Higher—Lying Direct Gap 4.6.4 Lowest Indirect Gap 4.6.5 Conduction—Valley Energy Separation 4.6.6 Direct—Indirect—Gap Transition Pressure 4.7 Energy—Band Structure： Electron and Hole Effective Masses 4.7.1 Electron Effective Mass： Γ Valley 4.7.2 Electron Effective Mass： Satellite Valley 4.7.3 Hole Effective Mass 4.8 Electronic Deformation Potential 4.8.1 Intravalley Deformation Potential： Γ Point 4.8.2 Intravalley Deformation Potential： High—Symmetry Points 4.8.3 Intervalley Deformation Potential 4.9 Electron Affinity and Schottky Barrier Height 4.9.1 Electron Affinity 4.9.2 Schottky Barrier Height 4.10 Optical Properties 4.10.1 Summary of Optical Dispersion Relations 4.10.2 The Reststrahlen Region 4.10.3 At or Near the Fundamental Absorption Edge 4.10.4 The Interband Transition Region 4.10.5 Free—Carrier Absorption and Related Phenomena 4.11 Elastooptic， Electrooptic， and Nonlinear Optical Properties 4.11.1 Elastooptic Effect 4.11.2 Linear Electrooptic Constant 4.11.3 Quadratic Electrooptic Constant 4.11.4 Franz—Keldysh Effect 4.11.5 Nonlinear Optical Constant 4.12 Carrier Transport Properties 4.12.1 Low—Field Mobility： Electrons 4.12.2 Low—Field Mobility： Holes 4.12.3 High—Field Transport： Electrons 4.12.4 High—Field Transport： Holes 4.12.5 Minority—Carrier Transport： Electrons in p—Type Materials 4.12.6 Minority—Carrier Transport： Holes in n—Type Materials 4.12.7 Impact Ionization Coefficient …… 5 Cubic Silicon Carbide （3C—SiC） 6 Hexagonal Silicon Carbide （2H—， 4H—， 6H—SiC， etc.） 7 Rhombohedral Silicon Carbide （15R—， 21R—， 24R—SiC， etc.）

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