第1章 科技英语翻译技巧 
1.1 科技英语概念 
1.2 科技英语文体总貌 
1.3 科技英语词汇特点 
1.4 科技英语翻译方法和技巧 
1.4.1 科技英语翻译标准 
1.4.2 科技英语翻译过程中语法特点 
1.4.3 科技英语的翻译方法与技巧 
1.5 提高科技英语翻译能力的途径 
第2章 semiconductor physics and device 
2.1 semiconductor materials 
2.2 type of solids 
2.3 crystal structure 
2.4 the atomic structure of semiconductors 
2.4.1 electron shells and orbits 
2.4.2 valence electrons, conduction electrons, and ions 
2.4.3 metallic bands 
2.4.4 covalent bonds 
2.4.5 electrons and hole current 
2.5 the pn junction 
2.5.1 doping 
2.5.2 the pn junction 
2.5.3 the depletion region 
2.6 biasing the semiconductor diode 
2.6.1 forward bias 
2.6.2 reverse bias 
2.6.3 peak inverse voltage （piv） 
2.6.4 reverse breakdown 
2.7 semiconductor device-bjt and fet 
2.7.1 bipolar junction transistor 
2.7.2 field-effect transistor 
2.8 semiconductor applications 
2.9 semiconductor competition 
第3章 electromagnetic field and electromagnetic wave 
3.1 the concept of electromagnetic fields and waves 
3.2 history of electromagnetic wave 
3.3 basic laws of electromagnetic theory 
3.3.1 faraday"s induction law 
3.3.2 gauss"s law-electric 
3.3.3 gauss"s law-magnetic 
3.3.4 ampere"s circuital law 
3.3.5 maxwell"s equations 
3.4 properties of electromagnetic wave 
3.4.1 wave model 
3.4.2 particle model 
3.4.3 speed of propagation 
3.5 electromagnetic spectrum and applications 
第4章 fundamentals of optics 
4.1 a brief history about optics 
4.1.1 the views of the antique philosophers 
4.1.2 classical optics 
4.1.3 modern optics 
4.1.4 moving bodies optics 
4.2 contents of optics 
4.2.1 rectilinear propagation of light 
4.2.2 reflection and refraction 
4.2.3 interference and diffraction 
4.3 optics systems 
4.3.1 telescopes 
4.3.2 retinal acuity 
第5章 fundamentals of lasers 
5.1 definition of laser 
5.2 a brief history of laser 
5.3 principle of laser generation 
5.3.1 spontaneous and stimulated emission, absorption 
5.3.2 the laser idea 
5.3.3 pumping schemes 
5.4 structure and properties of laser 
5.4.1 structure of laser 
5.4.2 properties of laser beams 
5.5 lasers types 
5.6 application of laser 
5.6.1 industrial applications 
5.6.2 medical applications 
第6章 nonlinear optics 
6.1 definition of nonlinear optics 
6.2 history of nonlinear optics 
6.3 features of interaction of intense light with matter 
6.4 theory framework of nonlinear optics 
6.5 descriptions of nonlinear optical processes 
6.5.1 second-harmonic generation 
6.5.2 frequency mixing generation 
6.5.3 sum-frequency generation 
6.5.4 difference-frequency generation 
6.5.5 optical parametric oscillation 
6.5.6 third-order nonlinear optical processes 
6.5.7 intensity-dependent refractive index 
6.5.8 third-order interactions 
6.5.9 parametric versus nonparametric processes 
6.5.10 saturable absorption 
6.5.11 two-photon absorption 
6.5.12 stimulated raman scattering 
6.6 application and outlook 
第7章 integrated circuit fabrication 
7.1 the concept of integrated circuit 
7.2 history of integrated circuit 
7.3 integrated circuit fabrication 
7.3.1 integrated circuit design 
7.3.2 the manufacturing process 
7.4 application 
7.5 the future 
第8章 optical communications 
8.1 the system model 
8.2 optical transmitters 
8.3 the transmitted optical field 
8.4 stochastic fields 
8.5 the optical channel 
8.5.1 the unguided （space） channel 
8.5.2 the guided （fiberoptic） channel 
8.6 the detected optical field 
8.7 background radiation 
8.8 photodetection 
8.9 optical intersatellite links 
第9章 holographic data storage 
9.1 the concept of holography 
9.2 history of holographic data storage 
9.3 principle of holographic data storage 
9.4 theory about formation and reconstruction of a hologram 
9.4.1 volume grating and bragg diffraction 
9.4.2 born"s approximation 
9.4.3 coupled wave theory 
9.5 hardware for holographic data storage 
9.6 coding and signal processing 
9.6.1 binary detection 
9.6.2 interpixel interference 
9.6.3 error correction 
9.6.4 predistortion 
9.6.5 gray scale 
9.6.6 capacity estimation 
9.7 associative retrieval 
9.8 recording materials 
9.9 two-color or photon-gated holography 
第10章 optical tweezers 
10.1 concept of optical tweezers 
10.2 history of optical tweezers 
10.3 basic theory of optical tweezers 
10.4 system of optical tweezers 
10.5 application of optical tweezers 
10.6 future of optical tweezers 
第11章 photonic crystal fiber 
11.1 the origins of pcfs 
11.1.1 conventional optical fibers 
11.1.2 photonic crystal 
11.1.3 from conventional optical fibers to pcfs 
11.2 the history of pcfs 
11.3 guiding light in pcfs 
11.3.1 modified total internal reflection 
11.3.2 photonic bandgap guidance 
11.4 properties of pcfs 
11.4.1 solid core pcfs 
11.4.2 hollow core pcfs 
11.5 fabrication of pcfs 
11.5.1 stack-and-draw technique 
11.5.2 extrusion fabrication process 
11.6 application of pcfs 
11.6.1 high power and energy transmission 
11.6.2 fiber lasers and amplifiers 
11.6.3 gas-based nonlinear optics 
11.6.4 supercontinuum generation 
11.6.5 telecommunications 
11.6.6 optical sensors