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source: MIT OpenCourseWare Last updated on 2014年6月23日
MIT 2.57 Nano-to-Micro Transport Processes, Spring 2012
View the complete course: http://ocw.mit.edu/2-57S12
This course aims at a fundamental understanding of descriptive tools for energy and heat transport processes, from nanoscale to macroscale. Student will further learn the applications in nanotechnology and microtechnology.
License: Creative Commons BY-NC-SA
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1. Intro to Nanotechnology, Nanoscale Transport Phenomena 1:18:11
2. Characteristic Time and Length, Simple Kinetic Theory 1:20:35
3. Schrödinger Equation and Material Waves 1:20:35
4. Solutions to Schrödinger Equation, Energy Quantization 1:22:12
5. Electronic Levels in One-Dimensional Lattice Chain 1:20:06
6. Crystal Bonding & Electronic Energy Levels in Crystals 1:20:18
7. Phonon Energy Levels in Crystal and Crystal Structures 1:22:02
8. Density of States and Statistical Distributions 1:21:20
9. Specific Heat and Planck's Law 1:18:41
10. Fundamental of Statistical Thermodynamics 1:18:20
11. Energy Transfer by Waves: Plane Waves 1:21:35
12. EM Waves: Reflection at a Single Interface 1:21:28
13. EM Wave Propagation Through Thin Films & Multilayers 1:15:25
14. Wave Phenomena and Landauer Formalism 1:21:32
15. Particle Description, Liouville & Boltzmann Equations 1:19:20
16. Fermi Golden Rule and Relaxation Time Approximation 1:20:51
17. Solutions to Boltzmann Equation: Diffusion Laws 1:21:58
18. Electron Transport and Thermoelectric Effects 1:22:25
19. Classical Size Effects, Parallel Direction 1:20:33
20. Classical Size Effects, Perpendicular Direction 1:20:03
21. Slip Condition, Coupled Energy Transport & Conversion 1:21:02
22. PN Junction, Diode and Photovoltaic Cells 1:20:41
23. Liquids: Brownian Motion and Forces in Liquids 1:23:27
24. Electrical Double Layer, Size Effects in Phase Change 1:17:38
25. Statistical Foundation for Molecular Dynamics Simulation 1:24:06