内容简介
Unit 1 数据处理与分析
1.1 APPLICATION OF EXCEL
1.2 APPLICATION OF ORIGIN
Unit 2 光物理
2.1 MODE ANALYSIS OF HE-NE LASER
2.1 He-Ne激光器的模式分析
2.2 MEASUREMENT OF LIGHT SPEED
2.2 光速测量
2.3 EXPEIRMENT OF FOURIER OPTICS
2.3 傅里叶光学实验
2.4 RAMAN SPECTROSCOPY
2.4 拉曼光谱
Unit 3 原子与分子物理
3.1 SPECTRUM OF HYDROGEN ATOM
3.1 氢原子光谱
3.2 ZEEMAN EFFECT
3.2 塞曼效应
3.3 FRANCK-HERTZ EXPERIMENT
3.3 夫兰克—赫兹实验
3.4 DIFFRACTION OF ELECTRON
3.4 电子衍射
3.5 MILLIKAN OIL-DROP EXPERIMENT
3.5 密立根油滴实验
3.6 COMPTON SCATTERING
3.6 康普顿散射
3.7 OPTO-MAGNETIC RESONANCE
3.7 光磁共振
3.8 ELECTRON SPIN RESONANCE
3.8 电子自旋共振
Unit 4 无线电物理
4.1 MICROWAVE TECHNOLOGY
4.1 微波技术
4.2 MICROWAVE&FERROMAGNETIC RESONANCE
4.2 微波与铁磁共振
Unit 5 等离子体物理
CHARACTERISTICS OF GAS DISCHARGE
气体放电特性研究
Unit 6 核物理
6.1 NUCLEAR MAGNETIC RESONANCE
6.1 核磁共振
6.2 NUCLEAR MAGNETIC RESONANCE IMAGING
6.2 核磁共振成像实验
Unit 7 凝聚态物理
7.1 VACUUM COATING
7.1 真空镀膜
7.2 HIGH-TEMPERATURE SUPERCONDUCTIVITY
7.2 高温超导
7.3 X-RAYS&STRUCTURE OF MATTER
7.3 X射线与物质结构
7.4 THE STATIC CHARACTER OF GRANULAR MATTER
7.4 颗粒物质的静态特性
7.5 ELECTRO-OPTIC EFFECT OF CRYSTAL AND IT'S APPLICATIONS
7.5 晶体的电光效应及其应用
7.6 RESEARCH ON THE CHARACTERISTICS OF LIQUID CRYSTAL
7.6 液晶特性研究
Unit 8 现代测量技术
8.1 MEASUREMENT OF REFRACTIVITY AND FILM THICKNESS BY ELLIPSOMETRY
8.1 椭圆偏振法测量折射率和薄膜厚度
8.2 SCANNING ELECTRON MICROSCOPE
8.2 扫描电子显微镜
8.3 SCANNING TUNNELING MICROSCOPE
8.3 扫描隧道显微镜
APPENDIX
REFERENCE