《半导体物理》

1、半导体物理课程编号： PHY04035课程名称：半导体物理学时：32学分：2课程简介：本课程为电子科学与技术专业（光电子方向）的学科基础教育必修课程，是光电技术与实验、激光原理与技术和光电成像原理与技术专业基础课程和专业课程的先导课程。课程的目的旨在为后继的专业课程奠定理论基础，任务旨在让学生掌握半导体物理学的基本概念、基本理论、和结论以及相关的分析方法。Semiconductor PhysicsCourse Code: PHY04035Course Name: Semiconductor PhysicsClass Hour: 32Credit: 2Course Description Sem

2、iconductor materials and devices play important roles in modern industry society and information products. Mastering the basic physical properties and basic knowledge of semiconductors is prerequisite for further studies on relevant courses.This course covers the rudimentary knowledge and basic theo

3、ries of semiconductor physics, including the lattice structure and electronic state of semiconductors; impurities and defect energy levels in semiconductors; statistical distribution of carriers in semiconductors; scattering and conductivity of carriers; generation, recombination and motion law of n

4、o equilibrium carriers; and surface and interface characters of semiconductors, such as p-n junction, contact of metal and semiconductor, MIS structure, heterojunction.遥感技术概论课程代码：OPT04062课程名称：遥感技术概论学时： 32学分： 2 课程简介：遥感的发展为人类提供了从多维和宏观角度去感知天地、认识宇宙世界的新方法与新手段。遥感技术是多学科多技术的综合，具有很强的交叉性和前沿性，其定性、定量、定时的应用分析，尤其

5、是定量分析，需要建立在对遥感信息获取与信息传输过程、应用对象的自身特点及其与周围环境的相互关系的充分理解上。本课程的目的与任务是介绍遥感涉及的重要概念、基本原理、主要技术与设备，以及典型遥感平台的应用与最新实例等，通过对目前在轨运行的不同应用需求的遥感平台及其数据反演的介绍，培养学生对定量遥感的初步认识，以及利用相关知识、技术和仪器分析来解决实际问题的能力。Introduction to Remote SensingCourse Code: OPT04062Course Name: Introduction to Remote SensingClass Hour: 32Credit: 2Cou

6、rse Description: Remote sensing is the science and art of obtaining information about a phenomena without being in contact with it and it is an extensive science, drawing from many areas for support and development. Its qualitative, quantitative analyses and applications, especially the quantitative

7、 analyses, are based on the full understanding of the acquisition and transmission of the remote sensing information, the characteristics of the application objects, and also the interrelation between the application objects and their circumstances.The objective of this course is to introduce some i

8、mportant concepts, basic principles, primary techniques and equipments relevant to remote sensing, as well as the applications of some typical remote sensing platforms and their latest application examples. Through introduction of some on-orbit remote sensing platforms designed for different require

9、ments and their data inversion, the elementary knowledge of students about quantitative remote sensing can be enhanced, and their abilities to use relevant knowledge, techniques and instruments to analyze and solve actual problems will be improved.虚拟现实技术课程代码：COM04033课程名称：虚拟现实技术课时：32学分：2课程描述： 本门课程的目的

10、是使研究生熟悉和了解虚拟现实和增强现实技术及其在典型领域的应用。学习本门课程之后研究生将掌握虚拟现实系统的输入输出装置以及建模技术，并能够设计和开发虚拟现实应用系统。 本门课程首先介绍虚拟现实技术及其发展历史，第二章和第三章讨论用于虚拟现实系统的典型输入和输出装置，第四章介绍虚拟现实建模技术，第五章该书了虚拟现实系统在医疗、教育、艺术、娱乐、军事、制造、机器人和信息可视化等典型领域的应用。Virtual Reality TechnologyCourse Code: COM04033Course Name: Virtual Reality TechnologyClass Hour: 32Cred

11、it: 2Course Description The objective of this course is to familiarize students with virtual reality technologies and their applications in typical fields. Students will master the input and output devices of virtual reality system as well as modeling techniques and be able to design and develop vir

12、tual reality application systems.This course begins with an introduction to virtual reality, which includes an historical review of the evolution of virtual reality technologies. Chapter 2 and 3 discuss the input and output devices typically used in virtual reality environments. Chapter 4 introduces

13、 the key virtual reality modeling issues. In Chapter 5, several traditional virtual reality applications in the medical, education, arts, entertainment, military, manufacturing, robotics, and information visualization are presented.半导体光电子器件制作技术课程代码：OPT04034课程名称：半导体光电子器件制作技术课时：24学分：1.5课程描述：本课程的教学目的是为

14、了让学生熟悉光电半导体器件的制造工艺。课程内容包括晶体生长，薄膜制造，曝光和刻蚀，掺杂技术，典型光电子器件的制造过程，等等。这门课程有助于学生理解光电半导体器件与系统的通用制备方法及相关的基础理论，通过这门课程的学习，学生能够掌握相关光电半导体元器件的制造技术。Fabrication Technology of Optoelectronic Semiconductor DevicesCourse Code: OPT04034Course Name: Fabrication Technology of Optoelectronic Semiconductor DevicesClass Hour:

15、 24Credit: 1.5Course DescriptionThe objective of this course is to familiarize students with the fabrication technology of optoelectronic semiconductor devices. The course consists of crystal growth, thin film fabrication, lithography and etching, doping technique, fabrication of typical optoelectro

16、nic semiconductor devices, and so on. This course will help the students understand the general fabrication methods of optoelectronic semiconductor devices and systems, and the relevant basic theories in details. Through this course, students will be able to know the techniques of relative optoelect

17、ronic semiconductor components.计算机原理与接口技术课程代码：COM04013课程名称：计算机原理与接口技术课时：48学分：3课程描述：本课程以16位微机8086为主讲机型，帮助学生熟悉8086的基本概念。课程系统介绍了微处理器的结构及工作原理、汇编语言程序设计、存储器扩展、输入/输出中断、接口设计原理及常用可编程接口芯片的使用，实验教学环节安排了汇编语言程序设计和接口编程。培养学生掌握微处理器的基本原理知识、软硬件设计，提高学生的动手能力和独立工作的能力。Principle of Micro-computer and Interface TechnologyCo

18、urse Code: COM04013Course Name: Principle of Micro-computer and Interface TechnologyClass Hour: 48 (Including 16 experimental class hours)Credit: 3Course Description The objective of this course is to familiarize students with the basic concepts of the 16-bit microprocessor 8086. The main topics of

19、the course are the architecture and working principle of the microprocessor, the assembler language program design, the memory expansion, the interrupts of input and output, the peripheral design principle and the use of the popular interface circuit. The experiment part arranges the programming of

20、the assembler language and peripherals. The goal of the course is to train students to grasp the general principles of 8086 microprocessor and design the hardware and software of the microcomputer system, improve their operation abilities and individual working abilities.典型光电成像器件应用电路设计课程代码：OPT04039课

21、程名称：典型光电成像器件应用电路设计课时：1周学分：1课程描述：本课程目的是针对微光检测技术中常用的距离选通技术，设计适合像管供电的高压电源和带距离选通功能的电源，帮助测控技术与仪器、电子科学与技术（光电子方向）的学生掌握光电成像技术中供电电源的设计方法。Typical Photoelectric Imaging Device Application Circuit DesignCourse Code: OPT04039Course Name: Typical Photo-electronic Imaging Device Application Circuit DesignClass Hou

22、r: 16 (1 weak)Credit: 1Course Description The object of this course is to aim at the distance gating technology in weak light detection applications, design a high-voltage power supply which is used in image intensifier and a power supply support distance gating function. The goals of the course is

23、to train students major in Measurement & Control Technology & Instrument, or major in Science & Technology of Electronics (Photo-electronic Field) to grasp the power supply design techniques in photo-electronic imaging applications.光电子电路设计课程代码：ELC04048课程名称：光电子电路设计课时：24学分：1.5课程描述：本课程主要介绍光电成像技术中对极其微弱的

24、光信号的处理技术。主要包括了光电系统及测量仪器密切相关的电子电路的设计，包括光电器件的偏置、低噪声放大器、微电流放大器、光电耦合器等器件的电路设计，其目的是培养学生掌握基本的处理理论和光电成像技术典型电路的设计方法。Optoelectronic Circuit DesignCourse Code: ELC04048Course Name: Optoelectronic Circuit DesignClass Hour: 24Credit: 1.5Course Description The objective of this course is to introduce the ultra-w

25、eak input light signal processing in the optoelectronic imaging technology. The main topics of the course involve the designs of the electronic circuits in optoelectronic system and the related measurement instruments, including the bias circuit of an optoelectronic component, the low-noise amplifie

26、r, the weak current amplifier and the photo-coupler, etc. The main goal of the course is to train students grasp the basic processing theories and typical circuit design methods in optoelectronic imaging technology.光电成像器件计算机辅助设计课程代码：OPT04041课程名称：光电成像器件计算机辅助设计学时：56学分：3.5 课程简介：本课程的目的是培养综合运用知识的能力，训练独立进

27、行计算机辅助设计工作的能力，编制、调试、开发实际工程软件的能力，提高运用现代设计方法与手段及利用计算机的能力。本课程的任务是结合比较接近实际情况的像管设计计算课题，综合运用光电成像原理课程中有关基本原理及其他有关知识，将本课程设计基本原理所给出的光电成像器件电子光学系统计算机辅助设计的物理模型与数学模型转化为可以实际进行数值计算的CAD程序软件系统。在理论教学部分，将讲解有限差分法计算旋转对称电场的方法；在上机实践部分，学生将独立完成电子像管电场分布计算的软件开发。通过本课程设计使学生得到软件开发技能的基本训练；为后续课程的学习和工程设计提供相应的理论基础和工程实践基础。 Computer-A

28、ided Design of Photoelectric Imaging DeviceCourse Code：OPT04041Course Name：Computer-Aided Design of Photoelectric Imaging Device Class Hour：56Credit：3.5Course Description The objective of this course is to develop the students ability of applying the knowledge comprehensively，train the ability of co

29、mputer-aided design, software programming，debugging and developing，improve the use of modern design methods and computers.The main task of this course is to design a compute project based on a camera tube. In the course，the basic principle of the course “Principle and Technology of Photoelectric Ima

30、ging” and other relevant knowledge should be used comprehensively. The physical and mathematic models of the electron-optical system of the photoelectric camera tube are converted into a programmable numerical computation software. The theoretical teaching part mainly focuses on the rotationally sym

31、metric electric field calculation through the finite difference method. In the practical part, students should finish the calculation in a specific procedure independently. Through the study of the course, students can learn the fundamental methods of software development and establish the foundatio

32、n for the future course study and engineering design.光谱信息技术课程代码: OPT04050课程名称: 光谱信息技术课时：24学分：1.5课程描述本课程主要目的是通过本课程的学习，培养学生正确使用及分析光谱信息的能力，和进一步开展基于光谱信息技术的研发能力。课程主要内容包括光谱信息技术概述，分子吸收与拉曼及荧光光谱，光谱信息分析基础，吸收光谱测量的长光程法，吸收光谱测量的导数光谱法；吸收光谱测量的光声光谱法；物质光谱的傅里叶变换测量法；激光诱导下的物质荧光光谱和拉曼光谱等。Spectrum Information TechnologyCou

33、rse Code: OPT04050Course Name: Spectrum Information TechnologyClass Hour：24Credit：1.5Course DescriptionThe objective of this course is to familiarize students with the basic principle of the spectrum information technology. Through this course, the ability of the students to analyze and apply spectr

34、um information will be improved.The contents of this course include summary of spectrum information technology, molecular absorption and its relation to Raman spectrum and fluorescence spectrum, basic knowledge for spectrum information analysis, long-optical-path method for absorption spectrum measu

35、rement, derivative spectroscopy for absorption spectrum measurement, photoacoustic spectroscopy for absorption spectrum measurement, Fourier transform for the spectrum measurement of substances, and the Raman spectrum and fluorescence spectrum under the inducement of laser.光电制导与跟踪课程代码：OPT04024课程代码：课

36、程名称：光电制导与跟踪技术学时：32 (其中实验学时：0 )学分：2 课程描述通过讲授光电制导及跟踪技术的基本原理，使学生掌握有关基本概念、原理和技术，通过以先进装备为实例、在研装备为背景，介绍光电制导与跟踪的技术应用。内容涉及光学理论制导和跟踪技术，其中主要内容电视制导技术，红外制导技术，激光制导技术，自主制导技术和复合制导技术。本课程紧密结合激光器件、红外器件等基本理论和技术的发展，介绍了制导与跟踪的前沿技术，拓宽了学生的知识面，引导学生跟踪国际前沿的发展动态，把握了该领域的技术发展方向。Optoelectronic Guidance and TrackingCourse Code: OP

37、T04024Course Name: Optoelectronic Guidance and TrackingClass Hour: 32 Credit: 2Course Description:The purpose of this course is to enable students grasp the basic concepts, principles and techniques by teaching the basic principles of optical guidance and tracking technology. The background of advan

38、ced equipment is systematically introduced.The contents involve optical guidance and tracking technology theories, television guidance technology, infrared guidance technology, laser-guided technology, self-guided technology and composite guidance technology.This course combines the widely used lase

39、r devices, infrared devices, to broaden the students knowledge, teach students to actively track the international forefront of developments, and grasp the direction of development of new technology. 光电技术基础与实验课程编号：OPT04006课程名称：光电技术基础与实验学时：64 （其中实验学时：24）学分：4 课程描述本课程通过讲解光电技术的基本概念、基础知识、基本原理和典型应用，使学生了解构

40、成光电系统的组成部分的工作原理和性能构成。通过本课程的学习，使学生了解光电系统的基本类型、常用光源、光电探测器的分类和其中存在的噪声，掌握各种噪声的成因、特点以及抑制方法，了解典型光电器件的工作原理和特点，掌握光电器件的性能，使用要点和选用原则；了解调制的作用、分类和方法以及光电信号的处理方法；了解直接探测系统和相干探测系统的工作原理和特点，介绍典型光电系统的应用。Principal and Experiments of Optoelectronic TechnologyCourse Code: OPT04006Course Name: Principal and Experiments of

41、 Optoelectronic TechnologyClass Hour:64 （Experimental Hour：24）Credit: 4Course Description： The objective of this course is to familiarize students with the basic concepts, principles and typical system of optoelectronic technology. Students will be able to analyze the principle of typical optoelectr

42、onic detection system architecture and its application. The course is divided into two parts. The main contents of the first part are as follows: radiation and light source; the working principle and performances of various optoelectronic detectors; the modulation of optical signal; optoelectronic d

43、etection techniques; optoelectronic signal processing; the applications of the optoelectronic detection. The second part is four relevant experiments about the testing of the characteristics of the optoelectronic detectors and the processing method of the optoelectronic signal. It mainly focuses on

44、the optoelectronic detectors operating mechanism, architecture and typical systems based on these detectors.光电技术实验设计课程编号：OPT04046课程名称：光电技术实验设计学时：1周 学分：1 课程描述本课程的任务是通过光电报警系统的设计、调试和检测，使学生进一步巩固和加深对光电系统的基本组成和各技术环节部分工作原理的理解，以及系统总体性能与各部分参数的关系，加强培养学生的动手能力和在实际工作中独立发现问题、分析问题和解决问题的能力，达到提高学生解决实际工程问题，特别是提高学生光电系

45、统总体设计水平的目的。The Experimental Design of Typical Optoelectronic SystemCourse Code: OPT04046Course Name: The Experimental Design of Typical Optoelectronic SystemClass Hour: one weekCredit: 1Course DescriptionThe objective of this course is to familiarize students with basic components and working princi

46、ple of optoelectronic system. Students will be able to analyze the relationship between system performances and parameters of each component through the design, debugging and testing of typical optoelectronic system. The main contents of the course include the follows: modulation of infrared radiati

47、on, design of the light source driver, optoelectronic detector output circuit, etc. Students should work in a group and design a active optoelectronic alarming system. After the system design, they need to implement the system to verify their design and submit the design report. 光学中的量子理论和统计物理课程代码：OP

48、T04053课程名称：光学中的量子理论和统计物理学时：56学分：3.5课程描述本课程是一门专业基础理论课，其目的是使学生从经典物理思维方式升华为现代物理思维模式，可以用量子和统计的观念观察和分析事物的宏观规律和微观本质。本课程包括量子理论和统计物理两部分内容。量子理论介绍微观粒子量子描述的基本概念、薛定谔方程及其应用，如无限深势阱、线性谐振子、氢原子等。力学量与算符、平均值、测不准关系式，表象理论和微扰理论等。统计物理主要介绍近独立粒子平衡态统计，包括玻尔兹曼统计、玻色统计和费米统计。麦克斯韦速度分布律、光子气体及电子气体等作为应用例子重点讨论。任务是通过对量子力学和统计物理学习，掌握微观领域

49、粒子运动规律的描述及统计的方法与原理， 能够从量子和统计的角度分析事物运行规律的机理，为后续课程学习打好理论基础。Quantum Theory and Statistics Physics in OpticsCourse Code: OPT04053Course Name: Quantum Theory and Statistics Physics in Optics Class Hour:56Credit:3.5Course Description: The objective of this course is to familiarize students with the basic

50、knowledge of theoretical physics which can be used to solve quantum and statistical problems in optics. Students will be able to understand the quantum description of particle and statistical analysis with some knowledge of the associated mathematics. The main contents of the course include statisti

51、cal physics and quantum mechanics. In statistical physics, the equilibrium statistical distribution laws of Maxwell-Boltzmann, Bose-Einstein and Fermi-Dirac systems will be introduced. Their applications including HYPERLINK /velocity/ t _blankvelocity distribution HYPERLINK /function/ t _blankfuncti

52、on of Maxwell, Blackbody radiation law and free electron mode will be introduced. In quantum mechanics, the fundamental concepts of quantum description of micro-particle, Schrdinger equation and its application such as infinite potential well, harmonic oscillator, hydrogen atom will be introduced. F

53、inally, Perturbation theory will be discussed. If time permits, absorption and dispersion of radiation in atomic media will be covered. The goal of the course is to analyze macroscopic law and microcosmic essence of phenomena by statistical and quantum view. 电动力学课程代码：MEC04040课程名称：电动力学学时：32学分：2课程描述本课

54、程是一门专业基础理论课，其目的是使学生掌握电磁场运动的基本规律，加深对电磁场性质和时空概念，获得本课程领域内分析和处理一些基本问题的初步能力，为后续课程打好理论基础。本课程的任务是通过矢量分析与场论、数学物理方程等数学工具及基础的物理关系和概念，推导并建立真空和介质中麦克斯韦方程组及相应的边值关系，求解静电场问题，掌握电磁波在不同介质空间及波导中的传播规律与电磁波辐射。了解电动力学理论在各学科领域中的应用。ElectrodynamicsCourse Code: MEC04040Course Name: ElectrodynamicsClass Hour: 32Credit: 2Course D

55、escription: The objective of this course is to familiarize students with the fundamental laws of electromagnetic field to analyze and to solve electromagnetic field related problems. Students will be able to use Maxwell equations to solve macroscopic electrostatics problem and understand the propaga

56、tion of electromagnetic field in different conditions, such as in vacuum, matter and waveguide. Electric dipole radiation，electromagnetic momentum and stress Tensor will be included.The main content of course is as follow: first, mathematical theory of field including vector analysis, Gradient, the

57、Divergence, the Curl, Greens theorem will be reviewed. Then Maxwells equations and its corresponding boundary conditions in vacuum and in matter, the fundamental concepts and the conservation laws of electromagnetic field will be introduced with some knowledge of the associated mathematics. Electros

58、tatics problems will be solved by Laplace method and image method. Finally, the propagation and radiation of electromagnetic waves in vacuum and matter will be discussed. The goal of the course is to setup the theoretical foundation of following wave optics, guided wave optics, principle of laser, e

59、tc. 辐射度学、光度学、色度学基础及其测量A课程代码：OPT04049课程名称：辐射度学、光度学、色度学基础及其测量A学时：40学分：2.5课程描述辐射度学、光度学及色度学(以下简称“三度学”)是现代光电信息转换、传输、存储、显示、测量与计量技术的基础。本课程主要讲授“三度学”的基本概念、原理、物理量的相互转换关系、计算分析方法、测量仪器与测试计量方法等，培养学生能够分析特定条件下给定目标的辐射或颜色特性。课程主要内容包括辐射度学、光度学、色度学的基础理论及相关物理量的测试方法。如果时间允许，本课程将进一步介绍辐射度学、光度学和色度学的相关应用。相关测试技术在现代光学技术和光电信息工程领域有

60、着重要的地位。本课程的培养目的之一就是提升学生应用所学理论和测量技术相关知识分析光电信息转换和传输过程中的问题的能力。Fundamental Theory and Measurement of Radiometry, Photometry, and Colorimetry ACourse Code: OPT04049Course Name: Fundamental Theory and Measurement of Radiometry, Photometry,and Colorimetry AClass Hour:40Credit:2.5Course Description Radiomet