課程資訊
課程名稱
 固態電子學
Solid State Electronics 
開課學期
 102-2 
授課對象
 學程  奈米科技學程  
授課教師
 吳育任 
課號
 EE3013 
課程識別碼
 901 37300 
班次
  
學分
全/半年
 半年 
必/選修
 選修 
上課時間
 星期三2,3,4(9:10~12:10) 
上課地點
 明達205 
備註
 總人數上限:100人 
Ceiba 課程網頁
 http://ceiba.ntu.edu.tw/1022EE3013_SE 
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課程概述

I. Fundamental Properties of Electrons mass
1) Basic classical properties of Electrons Solids
2) Wave properties of electrons
3) Schrodinger wave equation
4) Special solutions of wave equation

II. Statistics of Particles
1) Statistical description of particle properties
2) Fermi-Dirac statistics
3) Maxwell-Boltzmann statistics
4) Bose-Einstein statistics
5) Relationship to thermodynamics

III. Properties of Electrons in Solids
1) Crystal properties of solids
2) Electron energy levels in solids
3) Energy bands and density of states
4) Metals, semiconductors, and insulators
5) Localized energy states of impurities

IV. Fundamental Electronics Processes in
1) Drift and diffusion of carriers, mobility
2) Thermal effects
3) Hall effect
4) Excess carriers and excess carrier lifetime
5) Photoconductivity
6) Wave packets, group velocity, effective

V. Quantum Electronics
1) Discrete level systems
2) Emission and absorption
3) Population inversion
4) Maser and Laser

 

課程目標
 To understand the physics and fundamental principles of semiconductor devices 
課程要求
 Homework, midterm and final exams 
預期每週課後學習時數
  
Office Hours
  
指定閱讀
 ”Semiconductor Physics and Devices – Basic Principles (Fourth Edition)” by Neamen. 
參考書目
 ”Semiconductor Physics and Devices – Basic Principles (Fourth Edition)” by Neamen. 
評量方式
(僅供參考)
  
No.
項目
百分比
說明
1. 
 midterm 
35% 
  
2. 
 final 
35% 
  
3. 
 homework 
30% 
  
 
課程進度
週次
日期
單元主題
第1週
 2/19  Introduction
Solid state crystal structure 
第2週
 2/26  Introduction of Quantum Mechanis 
第3週
 3/05  Introduction to the Quantum theory of Solids 
第4週
 3/12  Introduction of semiconductor, band structure, electron, holes, and density of states 
第5週
 3/19  The semiconductor in Equilibrium

Statistics of Donors Acceptor, Charge Neutrality, and Position of Fermi level 
第6週
 3/26  Carrier transport Phenomena 
第7週
 4/02  Spring Break 
第8週
 4/09  thermal equilibrium and nonequilibrium Excess carriers.
 
第9週
 4/16  Midterm 
第10週
 4/23  introduction of pn junction.  
第11週
 4/30  pn diode, (TA time, introduction of NTU-DDCC simulation tools) 
第12週
 5/07 

When you open the 1D-DDCC program. Please load the Project_GaAs_pn.mat as an example to run GaAs pn junction problem. 
第13週
 5/14  generation and recombination current in pn diode 
第14週
 5/21  Metal-semiconductor and semiconductor heterojunction  
第15週
 5/28  Metal-semiconductor and semiconductor heterojunction  
第16週
 6/04  (老師臨時得出國開會 請假 補課時間 5/30 6:00pm) Fundamental of Metal-Oxide-Semiconductor heterojunction and transistor (TA time, introduction of NTU-2D-DDCC simulation tools) 
第17週
 6/11  Fundamental of Metal-Oxide-Semiconductor heterojunction and transistor

An example of ddcc_2D program for MOSFET is uploaded 
第18週
 06/18  Final Exam