Transcript 2013.9.17
DEE4521 2013 Semiconductor Device Physics Lecture 1: Introduction Prof. Ming-Jer Chen Department of Electronics Engineering National Chiao-Tung University 09/17/2013 1 (Bio-EE and Spintronics included) 2 (Leader so far) 3 (or degenerated) (projection into mind, followed by model in math.) 4 Some Textbooks Suggested 1. Robert Pierret, “Advanced Semiconductor Fundamentals”, Addison-Wesley, 1987. (Classical; no examples of Q&A) (Purdue) 2. (used in class) Richard Anderson and Betty Lise Anderson, “Fundamental of Semiconductor Devices”, McGraw-Hill, 1st Edition, 2005. (General; more examples of Q&A) (Ohio) 3. Chenming C. Hu, “Modern Semiconductor Devices for Integrated Circuits”, Pearson Education, 2010. (Concise; enough examples of Q&A) (Berkeley) 4. Donald A. Neamen, “Semiconductor Physics and Devices – Basic Principles” McGraw-Hill, 4th Edition, 2012. (General; more examples of Q&A) (New Mexico) 5 Contents of Lecture Notes 1. Introduction 2. On Band Structure 3. On DOS and Fermi-Dirac Statistics ----- 2012 Homework #1 4. Schottky and Ohmic Contacts ----- 2012 Homework #2 ----- 2012 Midterm Exam #1 5. On Mobility 6. On Transport: Drift, Dielectric Relaxation, Diffusion, G-R Process, and Continuity Equations ----- 2012 Homework #3 ----- 2012 Midterm Exam #2 7. Physics of p-n Junctions 8. Extensions of p-n Junctions: Esaki Diode, Long Base versus Short Base, Surface Recombination, and Bipolar Transistors ----- 2012 Homework #4 ----- 2012 Midterm Exam #3 ----- Some Answers 9. MOS Devices: MOS diode, Gated p-n Junctions, and MOSFETs 10. On Subthreshold Conduction ----- Make-up and Final Exams 6