图书详情 | 《光电子学与光子学原理与实践(第二版)(英文版)》
图书分类 一 〉工学 一 〉光学工程

国外电子与通信教材系列 : 光电子学与光子学原理与实践(第二版)(英文版)

S.O.卡萨普 著;

2013年5月

电子工业出版社

新华国采教育网络科技有限责任公司 折后价:¥79.00 定价:¥79.00
  • 电子工业出版社
  • 9787121202933
  • 1-1
  • 179282
  • 0047151535-3
  • 平装
  • 16开
  • 2013年5月
  • -
  • 995
  • 548
  • -
  • 工学
  • 光学工程
  • 0803
  • TN201
  • 光电信息科学与工程
  • 研究生、本科
  • 重版
  • -
  • -
  • -
内容简介:
  《光电子学与光子学--原理与实践(第2版英文版)》(作者卡萨普)是光电子和光子器件领域的经典教材,主要内容包括光的波动特性,介质波导和光纤,半导体科学基础和LED,光放大器和激光器,光探测器和图像传感器,光的偏振和调制等。每个章节除了基本内容外,还给出了一些附加主题来适当介绍先进技术和产品化光电子器件的实例,扩大和深化读者对基本内容的理解。该书力求采用尽可能少的数学推导而强调通过物理概念来说明原理,提供了许多例题,使得基本概念与实际器件相联系,同时每章末尾也提供了大量的习题。
  《光电子学与光子学--原理与实践(第2版英文版)》可作为光电、电气工程、工程物理、材料科学和工程学等专业的本科和研究生的教材,也可作为工程技术人员的参考用书。
目录
Chapter 1 Wave Nature of Light 19
1.1 Light Waves in a Homogeneous Medium 19
A. Plane Electromagnetic Wave 19
B. Maxwell’s Wave Equation and Diverging Waves 22
Example 1.1.1 A diverging laser beam 26
1.2 Refractive Index and Dispersion 26
Example 1.2.1 Sellmeier equation and diamond 29
Example 1.2.2 Cauchy equation and diamond 30
1.3 Group Velocity and Group Index 30
Example 1.3.1 Group velocity 33
Example 1.3.2 Group velocity and index 33
Example 1.3.3 Group and phase velocities 34
1.4 Magnetic Field, Irradiance, and Poynting Vector 34
Example 1.4.1 Electric and magnetic fields in light 37
Example 1.4.2 Power and irradiance of a Gaussian beam 37
1.5 Snell’s Law and Total Internal Reflection (TIR) 38
Example 1.5.1 Beam displacement 41
1.6 Fresnel’s Equations 42
A. Amplitude Reflection and Transmission Coefficients (r and t ) 42
B. Intensity, Reflectance, and Transmittance 48
C. Goos-Hänchen Shift and Optical Tunneling 49
Example 1.6.1 Reflection of light from a less dense medium (internal
reflection) 51
Example 1.6.2 Reflection at normal incidence, and internal and external
reflection 52
Example 1.6.3 Reflection and transmission at the Brewster angle 53
1.7 Antireflection Coatings and Dielectric Mirrors 54
A. Antireflection Coatings on Photodetectors and Solar Cells 54
Example 1.7.1 Antireflection coating on a photodetector 55
B. Dielectric Mirrors and Bragg Reflectors 56
Example 1.7.2 Dielectric mirror 58
1.8 Absorption of Light and Complex Refractive Index 59
Example 1.8.1 Complex refractive index of InP 62
Example 1.8.2 Reflectance of CdTe around resonance absorption 63
1.9 Temporal and Spatial Coherence 63
Example 1.9.1 Coherence length of LED light 66
1.10 Superposition and Interference of Waves 67
1.11 Multiple Interference and Optical Resonators 69
Example 1.11.1 Resonator modes and spectral width of a semiconductor
Fabry–Perot cavity 73
1.12 Diffraction Principles 74
A. Fraunhofer Diffraction 74
Example 1.12.1 Resolving power of imaging systems 79
B. Diffraction Grating 80
Example 1.12.2 A reflection grating 83
Additional Topics 84
1.13 Interferometers 84
1.14 Thin Film Optics: Multiple Reflections in Thin Films 86
Example 1.14.1 Thin film optics 88
1.15 Multiple Reflections in Plates and Incoherent Waves 89
1.16 Scattering of Light 90
1.17 Photonic Crystals 92
Questions and Problems 98
Chapter 2 Dielectric Waveguides and Optical Fibers 111
2.1 Symmetric Planar Dielectric Slab Waveguide 111
A. Waveguide Condition 111
B. Single and Multimode Waveguides 116
C. TE and TM Modes 116
Example 2.1.1 Waveguide modes 117
Example 2.1.2 V-number and the number of modes 118
Example 2.1.3 Mode field width, 2wo 119
2.2 Modal and Waveguide Dispersion in Planar
Waveguides 120
A. Waveguide Dispersion Diagram and Group Velocity 120
B. Intermodal Dispersion 121
C. Intramodal Dispersion 122
2.3 Step-Index Optical Fiber 123
A. Principles and Allowed Modes 123
Example 2.3.1 A multimode fiber 128
Example 2.3.2 A single-mode fiber 128
B. Mode Field Diameter 128
Example 2.3.3 Mode field diameter 129
C. Propagation Constant and Group Velocity 130
Example 2.3.4 Group velocity and delay 131
D. Modal Dispersion in Multimode Step-Index Fibers 132
Example 2.3.5 A multimode fiber and dispersion 132
2.4 Numerical Aperture 133
Example 2.4.1 A multimode fiber and total acceptance angle 134
Example 2.4.2 A single-mode fiber 134
2.5 Dispersion In Single-Mode Fibers 135
A. Material Dispersion 135
B. Waveguide Dispersion 136
C. Chromatic Dispersion 138
D. Profile and Polarization Dispersion Effects 138
Example 2.5.1 Material dispersion 140
Example 2.5.2 Material, waveguide, and chromatic dispersion 141
Example 2.5.3 Chromatic dispersion at different wavelengths 141
Example 2.5.4 Waveguide dispersion 142
2.6 Dispersion Modified Fibers and Compensation 142
A. Dispersion Modified Fibers 142
B. Dispersion Compensation 144
Example 2.6.1 Dispersion compensation 146
2.7