光学课程:前往报名学习
什么是光?What is Light?
开设学校:清华大学;学科:工学、
什么是光?What is Light?
-1.0 History of Optics 光学的历史发展
-1.1 Why Classical Wave Theory is Correct 经典理论为何正确
--1.1 Why Classical Wave Theory is Correct
-1.2 Wave and Wave Equation 波和波动方程
-1.3 Harmonic Wave 简谐波
-1.4 Phase Velocity and Phase Difference 相速度与相位差
--1.4 Phase Velocity and Phase Difference
-1.5 Superposition Principle 叠加原理
--1.5.1 Superposition Principle Part I
--1.5.2.Superposition Principle Part II
-1.6 Example of Superposition and Reciprocal Relation 叠加例子与反比关系
--1.6 Example of Superposition and Reciprocal Relation
-1.7 Euler Formula and Phasor 波的复数表达和旋转矢量表示
--1.7 Euler Formula and Phasor
-1.8 Doppler Effect 多普勒效应
--1.8.2 Doppler Effect Part II
-1.9 Doppler Broadening 多普勒展宽
-1.10 Plane Wave and Spherical Wave 平面波与球面波
--1.10 Plane Wave and Spherical Wave
-第一章习题
--习题
-2.1 Maxwell Equations(Maxwell 方程组)
-2.2 Wave Equation for E-M Field(电磁场的波动方程)
--2.2 Wave Equation for E-M Field
-2.3.1 Index of Refraction(折射率)
-2.3.2 Understanding n from Dipoles(用偶极模型理解折射率)
--2.3.2 Understanding n from Dipoles
-2.4 E-M Wave is Transverse(电磁波是横波)
-2.5 Energy Flow of E-M Wave(电磁波的能流)
-2.6 Momentum and photo-Pressure(动量和光压)
--2.6 Momentum and photo-Pressure
-2.7.1 Dipole Oscillator 1(偶极振子1)
-2.7.2 Dipole Oscillator 2(偶极振子2)
-2.8 Radiation by Dipole Oscillator(偶极振子的辐射)
--2.8 Radiation by Dipole Oscillator
-第二章习题
--习题
-3.1 Reflection and Refraction (反射与折射)
--3.1 Reflection and Refraction
-3.2 Huygens Principle(惠更斯原理)
-3.3.1 Fermat Principle part1: Optical Path Length (费马原理第一部分:光程)
--3.3.1 Fermat Principle part1: Optical Path Length
-3.3.2 Fermat Principle part2: an Explanation (费马原理第二部分:一种解释)
--3.3.2 Fermat Principle part2: an Explanation
-3.4.1 Scattering Point of View 1 (散射图像1)
--3.4.1 Scattering Point of View 1
-3.4.2 Scattering Point of View 2 (散射图像2)
--3.4.2 Scattering Point of View 2
-3.5 Reflection and Refraction Rules Derived from Boundary Conditions of Maxwell Equations(利用Maxwell方
--3.5 Reflection and Refraction Rules Derived from Boundary Conditions of Maxwell Equations
-3.6.1 The Basic problem and Setup of Coordinates (基本问题和坐标系的建立)
--3.6.1 The Basic problem and Setup of Coordinates
-3.6.2 The Reflection and Transmission Coefficients (发射与透射系数)
--3.6.2 The Reflection and Transmission Coefficients
-3.6.3 Discussion on Amplitude of the Coefficients (对系数大小的讨论)
--3.6.3 Discussion on Amplitude of the Coefficients
-3.6.4 Discussion on Phase of the Coefficients (对系数位相的讨论)
--3.6.4 Discussion on Phase of the Coefficients
-3.7 Stokes Relation and Half Wavelength Difference (Stokes关系式和半波损)
--3.7 Stokes Relation and Half Wavelength Difference
-第三章习题
--习题
-4.1 Introduction(几何光学介绍)
-4.2 Important Jargons(重要的术语)
-4.3.1 Image formation by Spherical Surface and Paraxial Approxiamation(球面成像和傍轴近似)
--4.3.1 Image formation by Spherical Surface and Paraxial Approxiamation
-4.3.2 Image Formation Formula(成像公式)
--4.3.2 Image Formation Formula
-4.3.3 Example and Transverse Magnification(例题和横向放大率)
--4.3.3 Example and Transverse Magnification
-4.4 Thin Lens(薄透镜)
-4.5 Thick Lens(厚透镜)
-4.6.1 Matrix Treatment 1: Matrix for Propagation and Refraction(矩阵处理1:表示传播与折射的矩阵)
--4.6.1 Matrix Treatment 1: Matrix for Propagation and Refraction
-4.6.2 Matrix Treatment 2: Lens Matrix(矩阵处理2:透镜矩阵)
--4.6.2 Matrix Treatment 2: Lens Matrix
-4.6.3 Matrix Treatment 3: Relations between Matrix Elements and Cardinal Points(矩阵处理3:矩阵元与主点的联系)
--4.6.3 Matrix Treatment 3: Relations between Matrix Elements and Cardinal Points
-第四章习题
--习题
-5.0 What is Interference(什么是干涉)
-5.1.1 Superposition of Waves: General Case(波叠加的通式)
--5.1.1 Superposition of Waves: General Case
-5.1.2 Adding Wave with Same Frequency and Direction(同频同向波的叠加)
--5.1.2 Adding Wave with Same Frequency and Direction
-5.1.3.1 Standing Wave 1 (驻波(上))
-5.1.3.2 Standing Wave 2 (驻波(下))
-5.1.4.1 Adding Waves with Different Frequencies 1: Beat and Group Velocity(不同频率波的叠加(上):拍和群速度)
--5.1.4.1 Adding Waves with Different Frequencies 1: Beat and Group Velocity
-5.1.4.2 Adding Waves with Different Frequencies 2: Continuous Frequency Spectrum(不同频率波的叠加(中):连续的频谱)
--5.1.4.2 Adding Waves with Different Frequencies 2: Continuous Frequency Spectrum
-5.1.4.3 Adding Waves with Different Frequencies 3: property of Wave Packet and Reciprocal Relation(不
--5.1.4.3 Adding Waves with Different Frequencies 3: property of Wave Packet and Reciprocal Relation
-5.2.1 Interference of Two Point Sources and Coherent Condition(两个点源的干涉和相干条件)
--5.2.1 Interference of Two Point Sources and Coherent Condition
-5.2.2 Young's Double-Slits Experiment(杨氏双缝干涉实验)
--5.2.2 Young's Double-Slits Experiment
-5.2.3 Another Treatment of Young's Interference, Paraxial and Far-field Condition(杨氏干涉的另一种处理,傍轴和远场条
--5.2.3 Another Treatment of Young's Interference, Paraxial and Far-field Condition
-Chapter 5 Interference and Coherence(Part 1)--第五章习
-5.3.0 Interference by Thin Film(薄膜干涉)
--5.3.0 Interference by Thin Film
-5.3.1 Equal Thickness Fringe(等厚干涉条纹)
--5.3.1 Equal Thickness Fringe
-5.3.2 Equal Inclination Fringe(等倾干涉条纹)
--5.3.2 Equal inclination Fringe
-5.3.3 Michelson Interferometer(Michelson干涉仪)
--5.3.3 Michelson Interferometer
-5.4.0 Multibeam Interference(多光束干涉)
--5.4.0 Multibeam Interference
-5.4.1.1 Derivation 1(理论推导(上))
-5.4.1.2 Derivation 2(理论推导(下))
-5.4.2.1 Discussion(结论与讨论)
-5.4.2.2 Application: F-P Interferometer(应用:F-P 干涉仪)
--5.4.2.2 Application: F-P Interferometer
-5.5.0 Coherence Theory(相干理论)
-5.5.1 Spatial Coherence(空间相干性)
-5.5.2.1 Temporal Coherence(时间相干性)
-5.5.2.2 Coherent Time and Length(相干时间和相干长度)
--5.5.2.2 Coherent Time and Length
-5.5.3.1 Definition of Correlation Function(关联函数定义)
--5.5.3.1 Definition of Correlation Function
-5.5.3.2 Correlation Function and Coherence(关联函数与相干)
--5.5.3.2 Correlation Function and Coherence
-第五章习题(下)
--习题
-6.1 basic problem in diffraction(衍射的基本问题)
--6.1 basic problem in diffraction
-6.2.1 Huygens-Fresnel Principle and Kirchhoff Euation(惠更斯-菲涅耳原理和基尔霍夫方程)
--6.2.1 Huygens-Fresnel Principle and Kirchhoff Euation
-6.2.2 Fresnel and Fraunhoffer Diffraction(菲涅耳与夫琅和费衍射)
--6.2.2 Fresnel and Fraunhoffer Diffraction
-6.3.1 Fresnel Diffraction 1: Half Wavelength Plate(菲涅耳衍射1:半波带法)
--6.3.1 Fresnel Diffraction 1: Half Wavelength Plate
-6.3.2 Fresnel Diffraction 2: Phasor Method(菲涅耳衍射2:旋转矢量法)
--6.3.2 Fresnel Diffraction 2: Phasor Method
-6.3.3 Fresnel Diffraction 3: Opaque Disk and Babinet Principle(菲涅耳衍射3:圆屏衍射和Babinet原理)
--6.3.3 Fresnel Diffraction 3: Opaque Disk and Babinet Principle
-6.3.4 Fresnel Diffraction 4: Fresnel Zone Plate(an application)(菲涅耳衍射4:菲涅耳波带片(一个应用))
--6.3.4 Fresnel Diffraction 4: Fresnel Zone Plate(an application)
-6.4.0 Fraunhoffer Diffraction: General Expression(夫琅和费衍射1:普遍表达形式)
--6.4.0 6.4.0 Fraunhoffer Diffraction: General Expression
-6.4.1.1 Single Slit Fraunhoffer Diffraction(单缝夫琅和费衍射)
--6.4.1.1 Single Slit Fraunhoffer Diffraction
-6.4.1.2 Characteristic of Single Slit Case(单缝衍射的特点)
--6.4.1.2 Characteristic of Single Slit Case
-6.4.2 Fraunhoffer Diffraction for Rectangular Window(矩形窗口的夫琅和费衍射)
--6.4.2 Fraunhoffer Diffraction for Rectangular Window
-6.4.3.1 Fraunhoffer Diffraction for Circular Aperture(圆孔的夫琅和费衍射)
--6.4.3.1 Fraunhoffer Diffraction for Circular Aperture
-6.4.3.2 Diffraction Limit on Resolution(分辨率的衍射极限)
--6.4.3.2 Diffraction Limit on Resolution
-第六章习题(上)
--习题
-6.5.1 Fraunhoffer Diffraction for 2-slits Case(双缝夫琅和费衍射)
--6.5.1 Fraunhoffer Diffraction for 2-slits Case
-6.5.2.1 Multi-slits Dffraction 1: Intensity distribution(多缝衍射1:光强分布)
--6.5.2.1 Multi-slits Dffraction 1: Intensity distribution
-6.5.2.2 Multi-slits Diffraction 2: Interference between Slits and Principal maxima(多缝衍射2:缝间干涉和主极大)
--6.5.2.2 Multi-slits Diffraction 2: Interference between Slits and Principal maxima
-6.5.2.3 Multi-slits Diffraction 3: Missing Order and Examples(多缝衍射3:缺级与例题)
--6.5.2.3 Multi-slits Diffraction 3: Missing Order and Examples
-6.5.3.1 Grating Spectrometer(光栅光谱仪)
--6.5.3.1 Grating Spectrometer
-6.5.3.2 Dispersion Relation of Grating Spectrometer(光栅光谱仪的色散关系)
--6.5.3.2 Dispersion Relation of Grating Spectrometer
-6.5.3.3 Dispersion Power and Resolution(色散能力和分辨率)
--6.5.3.3 Dispersion Power and Resolution
-6.5.3.4 Free Spectral Range(自由光谱程)
-第六章习题(下)
--习题
-7.0 introducing Fourier expansion and transform(介绍傅里叶展开与变换)
--7.0
-7.1.1 Fourier transform for periodic functions(周期函数的傅里叶展开)
--7.1.1
-7.1.2 examples on Fourier expansion(傅里叶展开的例子)
--7.1.2
-7.2.1 Fourier transform for general functions(一般函数的傅里叶变换)
--7.2.1
-7.2.2 Fourier transforms of some typical functions and relation on width distribution(一些典型函数的傅里叶变换和分
--7.2.2
-7.3.1 Dirac delta function(狄拉克delta函数)
-7.3.2 Fourier transform of the delta function(delta函数的傅里叶变换)
--7.3.2
-7.4.1 properties of Fourier transform(傅里叶变换的性质)
--7.4.1
-7.4.2 Fourier transform of derivatives(函数导数的傅里叶变换)
--7.4.2
-7.4.3 what is convolution between functions(函数的卷积是什么)
--7.4.3
-7.4.4 Fourier transform of convolution(卷积的傅里叶变换)
--7.4.4
-7.5 relation between fourier transform and Fraunhoffer equation(傅里叶变换与夫琅禾费衍射之间的关系)
--7.5
-7.6 Abbe image formation(阿贝成像原理)
--7.6
-Chapter 7--第七章习题
-8.1 what is polarization(什么是偏振)
--8.1
-8.2.1 how to express polarization state(如何表达偏振态)
--8.2.1
-8.2.2 unpolarized and partial polarized light(非偏振态和部分偏振态)
--8.2.2
-8.3 linear polarizer(线偏振片)
--8.3
-8.4.1.1 Jones vector(Jones 矢量)
--8.4.1.1
-8.4.1.2 Transformation of Jones Vector(Jones 矢量的变换)
--8.4.1.2
-8.4.2 Jones matrix(Jones 矩阵)
--8.4.2
-第八章(上)习题
--习题
-8.5.1 Birefringence and a simple illustration
--8.5.1 Birefringence and a simple illustration
-8.5.2 Ordinary and Extraordinary light
--8.5.2
-8.5.3 Typical Examples
--8.5.3
-8.6.1 application 1-linear polarizer
--8.6.1
-8.6.2.1 application 2-quarter wave plate
--8.6.2.1
-8.6.2.2 application 2-change polarization state by quarter wave-plate
--8.6.2.2
-8.6.2.3 application2-change direction of polarization by half-plate
--8.6.2.3
-8.7.1
--8.7.1
-8.7.2
--8.7.2
-8.7.3
--8.7.3
-8.7.4
--8.7.4
-8.8.1
--8.8.1
-8.8.2
--8.8.2
-8.8.3
--8.8.3
-第八章(下)习题
--习题
-期末测试
--期末测试
蒋硕, 副教授, 美国芝加哥大学化学系博士,美国宾州州立大学物理系博士后。 在清华大学物理系主讲基础物理原理与实验一 (力学与狭义相对论);基础物理原理与实验三(光学与量子初步)。 基原三也是教育部双语教学示范课程。 上述课程主要教学对象为物理系本科学生。
