藉由此门课，您将发现古典物理的不足之处，了解量子物理如何成功解释古典物理无法解释的现象。普朗克常数、光电效应、波耳的氢原子能阶、薛丁格方程式、穿隧效应、海森堡测不准原理、费曼法则、自旋耦合效应，这些看似艰深的物理现象，藉由赖志煌老师在课堂上深入浅出的介绍，搭配生活中常见的各种现象以及研究上常见的分析仪器，进一步加深您对各种物理现象的应用与原理，带领您轻松悠游于量子物理的世界。

Voir plus

- Week1. Particle Properties of Waves
- week 1-1 intro
- Week 1-2 Blackbody Radiation
- week 1-3 Photoeletric Effect&X-ray Generation(1)
- week 1-4 Photoelectric Effect & X-ray Generation(2)
- week 1-5 X-ray Generation(1)
- week 1-6 X-ray Generation(2)
- week 1-7 Compton Effect
- week 1-8 Pair Production

- 課程講義Week1
- 課程講義Week1

- Week2. Wave Properties of Particles
- week 2-1 De Broglie waves
- week 2-2 Phase and group velocity
- week 2-3 Phase and group velocity(2)
- week 2-4 Particle diffraction
- week 2-5 Particle in a box
- week 2-6 Uncertainty Principle(1)
- week 2-7 Uncertainty Principle(2)
- week 2-8 Uncertainty Principle(3)
- quiz#1

- 課程講義Week2
- 課程講義Week2

- Week3. Atomic Structure
- week 3-1 Atom Model(1)
- week 3-2 Atom Moedl(2)
- week 3-3 Bohratom&Atomic Spectra(1)
- week 3-4 Bohratom&Atomic Spectra(2)
- week 3-5 Correspondence Principle&Atomic excitation(1)
- week 3-6 Atomic excitation
- week 3-7 Laser(1)
- week 3-8 Laser(2)

- 課程講義Week3
- 課程講義Week3

- Week4. Quantum mechanics, Wave function
- week 4-1 Schrödinger's Equation(1)
- week 4-2 Schrödinger's Equation(2)
- week 4-3 Particle in a Box(1)
- week 4-4 Particle in a Box(2)
- week 4-5 Tunnel Effect
- weeek 4-6 Harmonic oscillator(1)
- week 4-7 Harmonic oscillator(2)&Operators(1)
- week 4-8 Operator(2)
- Quiz#2

- 課程講義Week4
- 課程講義Week4

- Week5. Quantum Theory of the Hydrogen Atom
- week5-1 Schrödinger's Equation for H atom(1)
- week5-2 Schrödinger's Equation for H atom(2)
- week5-3 Schrödinger's Equation for H atom(3)
- week5-4 Schrödinger's Equation for H atom(4)
- week5-5 Schrödinger's Equation for H atom(5)
- week5-6 Radiation Transitions and Selection Rules
- week5-7 Zeeman Effect(1)
- week5-8 Zeeman Effect(2)

- 課程講義Week5
- 課程講義Week5

- Week6. Many-electron Atoms
- week6-1 Electron Spin(1)
- week6-2 Electron Spin(2)&Exclusion Principle
- week6-3 Symmetric & Antisymmetric Wave Function
- week6-4 Spin-orbit coupling
- week6-5 Total angular momentum
- week6-6 LS Coupling(1)
- week6-7 LS Coupling(2)
- week6-8 X-ray Spectra
- Midterm

- 課程講義Week6
- 課程講義Week6

- Week7. Molecules
- week7-1 Molecular Bonds
- week7-2 Complex Molecules(1)
- week7-3 Complex Molecules(2)
- week7-4 Rotational Energy Levels(1)
- week7-5 Rotational Energy Levels(2)
- week7-6 Vibrational Energy Levels(1)
- week7-7 Vibrational Energy Levels(2)
- week7-8 Electronic Spectra of Molecules
- Quiz#3

- 課程講義Week7
- 課程講義Week7

- Week8. Statistical Mechanics
- week8-1 Maxwell-Boltzmann Statistics
- week8-2 Molecular Energy in an Ideal Gas(1)
- week8-3 Molecular Energy in an Ideal Gas(2)
- week8-4 Quantum Statistics(1)
- week8-5 Quantum Statistics(2)
- week8-6 Blackbody Radiation(1)
- week8-7 Blackbody Radiation(2)
- week8-8 Free Electrons in a Metal

- 課程講義Week8
- 課程講義Week8

- Week9. Experiment and Facility in QM
- week9-1 Surface Analysis-AES
- week9-2 Surface Analysis-XPS
- week9-3 Transmission electron microscope -TEM(1)
- week9-4 Transmission electron microscope -TEM(2)
- week9-5 Scanning probe microscopy -SPM
- week9-6 Physic of spintronic and application(1)
- week9-7 Physic of spintronic and application(2)
- week9-8 Physic of spintronic and application(3)
- Quiz#4
- Final exam

- 課程講義Week9
- 課程講義Week9

- 赖志煌

Xuetangx body

MESSAGE_PLACEHOLDER