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Course title |
Semiconductor Optics |
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Semester |
109-2 |
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Designated for |
COLLEGE OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE GRADUATE INSTITUTE OF ELECTRICAL ENGINEERING |
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Instructor |
LUNG HAN PENG |
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Curriculum Number |
OE5004 |
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Curriculum Identity Number |
941 U0090 |
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Class |
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Credits |
3.0 |
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Full/Half
Yr. |
Half |
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Required/
Elective |
Elective |
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Time |
Wednesday 7,8,9(14:20~17:20) |
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Remarks |
The upper limit of the number of students: 10. |
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Ceiba Web Server |
http://ceiba.ntu.edu.tw/1092OE5004_ |
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Course introduction video |
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Table of Core Capabilities and Curriculum Planning |
Table of Core Capabilities and Curriculum Planning |
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Course Syllabus
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Please respect the intellectual property rights of others and do not copy any of the course information without permission
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Course Description |
CHAPTER 1: INTERACTION OF LIGHT WITH MATTER
1.1 REVIEW OF MAXWELL‘S EQUATIONS AND PHOTONS
1.2 MACROSCOPIC AND MICROSCOPIC ASPECTS OF LIGHT-MATTER INTERACTION
1.3 PERTURBATION METHOD IN LINEAR OPTICAL INTERACTION
1.4 UNCOUPLED OSCILLATOR MODEL
1.5 COUPLED OSCILLATOR MODEL
1.6 KRAMERS-KRONIG RELATIONS
CHAPTER 2: ELEMENTARY EXCITATIONS
2.1 LATTICE-VIBRATIONS AND PHONONS
2.2 ELECTRONS IN PERIODIC LATTICE
2.3 SIMPLE CONCEPTS OF QUANTUM WELLS, WIRES, AND DOTS
2.4 EXCITONS
2.5 PLASMONS
2.6 POLARITONS
CHAPTER 3: SELECTED TOPICS OF CURRENT RESEARCH
3.1 OPTICAL PROPERTIES OF INTRINSIC EXCITONS IN REDUCED DIMENSION
3.2 EXCITON UNDER EXTERNAL FIELDS - ELECTRIC, STRAIN, AND MAGNETIC FIELDS
3.3 HIGH EXCITATION AND NONLINEAR OPTICS
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Course Objective |
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Course Requirement |
評分: 作業: 20% 期中考: 40% 期末考: 40%
教科書:
C.F. KLINGSHIRN, “SEMICONDUCTOR OPTICS,” SPRINGER-VERLAG (1995, ISBN 3-540-58312-2) (歐亞書局經銷)
參考書 (工圖參考室):
(1) E.L. IVCHENKO AND G. E. PIKUS, “SUPERLATTICES AND HETEROSTRUCTURES:
SYMMETRY AND OPTICAL PHENOMENA”, SPRINGER VERLAG (1995, 臺大工圖 QC611.6.06 I89)
(2)B. K. RIDLEY, “QUANTUM PROCESS IN SEMICONDUCTORS,” OXFORD SCIENCE PUBLICATIONS, (1988, 臺大工圖 QC611.R54 1988)
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Student Workload (expected study time outside of class per week) |
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Office Hours |
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Designated reading |
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References |
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Grading |
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Week |
Date |
Topic |
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第1週 |
2021/2/24 |
Ch.2 Thin film absorption; Ch.4 Oscillator model for dielectric function |
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第2週 |
2021/3/3 |
Wave Propagation in anisotropic crystals |
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第3週 |
2021/3/9 |
Oscillator model |
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第4週 |
2021/3/17 |
plasmon & polariton |
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第5週 |
2021/3/24 |
Surface polariton |
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第6週 |
2021/3/31 |
phonon part I |
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第7週 |
4/7/2021 |
Phonon part II |
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第8週 |
2021/4/14 |
Crystal and Reciprocal space, X-ray diffraction |
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第9週 |
2021/4/21 |
XRD |
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第10週 |
2021/4/28 |
Exciton (bulk) |
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第11週 |
2021/5/5 |
Exciton polariton, 2D materials and exciton |
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第12週 |
2021/5/12 |
Optical transition matrix element |
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第13週 |
2021/5/19 |
optical elements, finite difference method, |
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第14週 |
2021/5/26 |
Finite Difference Method |
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第15週 |
2021/6/2 |
k.p theory and band structures |
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第16週 |
2021/6/9 |
Strain effect |
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第17週 |
2021/6/16 |
Strain Effect part II |
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第18週 |
2021/6/23 |
strain and 2D Poisson |