內容大綱: 1.固態晶體結構 (The Crystal Structure of Solids)
2.量子力學及固態量子理論概論 (Introduction to Quantum Mechanics and the Quantum Theory of Solids)
3.熱平衡半導體 (The Semiconductor in Equilibrium)
4.載子傳輸現象 (Carrier Transport Phenomena and excess carrier)
5.PN接合面 (The PN Junction ) and Metal-Semiconductor junction
7. More on MOSFET
8. Nonequilibrium Excess carrier
9. more on pn and Schottky junction
10. Optical device: solar cell, LED….
The understanding of semiconductor devices is essential for future deep submicron device, process and circuit design. This course will give the students not only the physics, but also the engineering perspectives, which is useful for the industry applications from Si foundry, DRAM, NVM, analog/mixed mode design, solar energy, thin tilm transistors for display…..
The term project will be conducted in group for the survey/study of the possible applications of semiconductors in various fields. The deep understanding of nano devices of CMOS and post CMOS is also welcome in the report.
The some quantum mechanics concept will be taught if students are not aware of.
教科書：D.A.Neamen, 2006 “ an introduction to Semiconductor Devices”., McGraw Hill.
The extra handout will be given in the website: http://nanosioe.ee.ntu.edu.tw
成績評量方式：作業20%，期中考30%，期末考30%, term project 20%