研究生课程

A. Ultrafast intense laser physics [PDF]

1. Introduction [PDF]
    Laser; Light matter interaction; Laser
-driven nuclear fusion
2. Intense laser technology [PDF]
    Chirp pulse amplification; Hollow fiber pulse compressor; Light synthesis
3. Laser pulse [
PDF]
    One-dimensional wave; Carrier-envelope phase; Chirped pulse;  Gaussian beam; 
Longitudinal field; Short-pulse effect; Exotic polarization; Pulse measurement; Prepulse
4. Laser electron interaction [
PDF]
    Linear motion; Thomson scattering; Relativistic motion; Laser ponderomotive force; Electron acceleration; Nonlinear Thomson scattering; Radiation reaction; Compton scattering
5.
Laser atom interaction [PDF]
    Light scattering; Photoelectric effect; Multi-photon ionization; Tunneling ionization; High harmonic generation; Attosecond pulse; Relativistic effect
6. Laser plasma interaction (LPI) [
PDF]
    Plasma basic; Two-fluid model; Dispersion relation; Nonuniform plasma; Oblique incidence; Resonant absorption; Collisional absorption; Raman scattering; Raman amplification
7. Relativistic LPI-underdense plasma [PDF]
    Relativistic self-focusing;
Relativistic soliton; Laser wakefield accelerator; THz radiation
8. Relativistic LPI-overdense plasma [PDF]
    Hot electrons; Ion acceleration; High-harmonic generation; Relativistic electron sheets
9. Numerical simulation [PDF]
    Computational physics; Source & suggestion; Single electron simulation;
Molecular dynamics simulation; Particle-in-cell simulation

B. How to make a PIC code [arXiv]

1. Introduction
2. JPIC1d
3. JPIC2d

4. Application of JPIC
5. Perspective
 


本科生课程

A. 大学物理(上) [PPT]

1. 质点运动学
2. 动量  能量  角动量
3. 刚体力学

4. 万有引力
5.
狭义相对论
6. 机械振动和波
7. 气体动力学  热力学基础


B. 大学物理乙(下) [PPT]

1. 静电场  静电场中的导体和电介质
2. 稳恒电流和磁场  磁场中的磁介质
3. 电磁感应

4. 麦克斯韦方程  电磁波
5.
光的干涉  衍射  偏振
6. 辐射的量子性
7. 量子力学简介  氢原子结构

8. 激光产生和应用