1. | Introduction | 반도체에 관한 기본용어 반도체의 격자 구조 |
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Introduction (강의노트) | ||||
2. | Semiconductors | Procides the basic concepts and terminology for understanding Semiconductors Understand conduction and valence energy band, and how bandgapis foremd Understand carriers (electrons and holes), and doping in Semiconductor Use the density of states and Fermi-Dirac atstistics to calculate the carrier concentration | ||
Semiconductors (강의노트) | ||||
3. | effective mass | 각 band 내에서의 물리적인 특성 , band gap의 형성 , direct/indirect band gap 구조 , effective mass의 물리적인 의미 | ||
effective mass (강의노트) | ||||
4. | Effective Mass | Effective Mass Density of States Statistical Laws |
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Effective Mass (강의노트) | ||||
5. | Motion and Recombination of Electrons and Holes | Hole conductivity Electron conductivity |
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Motion and Recombination of Electrons and Holes (강의노트) | ||||
6. | Motion and Recombination of Electrons and Holes | Constancy of the fermi level for ekectron |
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Motion and Recombination of Electrons and Holes (강의노트) | ||||
7. | indirect recombination | Motion and Recombination of Electrons and Holes PN and l - Semiconductor Junctions |
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indirect recombination (강의노트) | ||||
8. | Peak Electric Field | PN and l- Semiconductor Junctions | ||
Peak Electric Field (강의노트) | ||||
9. | PN and l - Semiconductor Junctions (1) | |||
PN and l Semiconductor Junctio (강의노트) | ||||
10. | PN and l - Semiconductor Junctions (2) | Hole conductivity Electron conductivity |
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PN and l Semiconductor Junctio (강의노트) | ||||
11. | PN and l - Semiconductor Junctions (3) | Out put Power External Quantum Efficiency |
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PN and l Semiconductor Junctio (강의노트) | ||||
12. | PN and l - Semiconductor Junctions (4) | Confinements Fermi-level pinning |
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PN and l Semiconductor Junctio (강의노트) | ||||
13. | Ideal ohmic contact | PN and l - Semiconductor Junctions MOS capacitor |
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Ideal ohmic contact (강의노트) | ||||
14. | Choice of Vt and Gate Doping Type | MOS Capacitor | ||
Choice of Vt and Gate Doping Type (강의노트) |