This book comprehensively discusses the basic knowledge of semiconductor physics. It consists of 13 chapters. The main contents include: lattice structure and electronic states of semiconductors; impurity and defect energy levels; statistical distribution of carriers; scattering of carriers and conduction issues; generation, recombination, and motion laws of non-equilibrium carriers; pn junctions; contact between metals and semiconductors; semiconductor surfaces and MIS structures; semiconductor heterostructures; physical phenomena in semiconductors such as photo, thermal, magnetic, and piezoresistance effects, as well as amorphous semiconductors. The book provides accompanying teaching resources such as a syllabus and electronic courseware (PPT). It can be used as a textbook for courses related to semiconductor physics in universities' integrated circuit science and engineering and other relevant majors, and it can also serve as a reference for professionals in related fields.
Contents:
- Preface to the 8th Edition
- About the Authors
- Introduction
- Electronic States in Semiconductors
- Impurity and Defect Energy Levels in Semiconductor
- Statistical Distribution of Charge Carriers in Semiconductors
- Electrical Conductivity of Semiconductors
- Non-Equilibrium Charge Carriers
- p-n Junctions
- Contacts between Metals and Semiconductors
- Semiconductor Surface and MIS Structure
- Semiconductor Heterojunction
- Optical Properties, Optoelectronic and Light Emission Phenomena of Semiconductor
- Thermoelectric Properties of Semiconductor
- Magnetic and Piezoresistive Effects of Semiconductor
- Amorphous Semiconductor
- Appendices
- Index
Readership: This book can be used as a textbook for courses related to semiconductor physics in higher education institutions specializing in integrated circuit science and engineering, and other relevant majors. It is suitable for use by undergraduates, graduate students, and faculty in related fields.
Translated by
Gaoming Li