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課程名稱 |
光電元件程式模擬
Optoelectronic Device Program Simulation |
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開課學期 |
110-2 |
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授課對象 |
電機資訊學院 光電工程學研究所 |
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授課教師 |
吳育任 |
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課號 |
OE5060 |
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課程識別碼 |
941 U0600 |
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班次 |
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學分 |
3.0 |
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全/半年 |
半年 |
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必/選修 |
選修 |
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上課時間 |
星期一2,3,4(9:10~12:10) |
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上課地點 |
明達225 |
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備註 |
總人數上限:24人 |
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Ceiba 課程網頁 |
http://ceiba.ntu.edu.tw/1102OE5060_123 |
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課程簡介影片 |
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核心能力關聯 |
核心能力與課程規劃關聯圖 |
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課程大綱
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課程概述 |
.1. Introduction
2. The approach for solving of Non-linear Poisson and Drift-diffusion solver: The Gummel Iteration Method.
3. Apply this solver for studying the current-voltage behavior of pn diode LED, photo-detector, and Solar cell
4. Semiconductor crystal material and their band structure. (Numerical methods introduced: tight binding method (TBM), k.p method (k.p) and valence force field (VFF) model for strain)
5. Application of the semiconductor band structure model for analyzing
1. The influence of strain the band structure modification in the quantum well, quantum dot and SOU technology.
2. The band structure calculation of new material system such as graphene, nanowire structures.
6. Introduction of light propagation simulation: (FD-TD method for small scale problem and Monte Carlo ray tracing method for large scale problem)
7. Combination of wave simulation program with electronic simulation program in studying the light injection and extraction of Solar cell and quantum well LED.
8. Thermo-electric material: The concept of phonon, phonon propagation, the device physics of thermelectric materials and their limitation |
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課程目標 |
Understand the current bottleneck of optoelectronic devices and learn how to analyze these problems by a numerical approach. We will discuss the current device problem and how to approach these topics listed in outlines listed above. |
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課程要求 |
Understanding basic Semiconductor Physics:
(Solid state electronics, modern physics, nano-photonnics or semiconductor optics)
familiar with at least one computer language
(Fortran, c/c++, matlab, mathematica ...) |
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預期每週課後學習時數 |
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Office Hours |
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指定閱讀 |
待補 |
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參考書目 |
Electronic and Optoelectronic Properties of Semiconductor Structures
J. Singh (Cambridge) |
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評量方式
(僅供參考) |
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No. |
項目 |
百分比 |
說明 |
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1. |
Homework |
40% |
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2. |
Final Report |
40% |
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3. |
Attendance & discussion |
20% |
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週次 |
日期 |
單元主題 |
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第1週 |
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Simulation of Poisson and Drift-diffusion equations |
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第2週 |
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Numerical modeling: Finite difference |
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第3週 |
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Solving nonlinear Poisson equation |
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第4週 |
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Drift-diffusion solver |
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第5週 |
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Drift-diffusion solver and Time dependent problem |
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第6週 |
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放假 |
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第7週 |
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2D and 3D mufti-dimensional problem |
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第8週 |
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Solving the Schdroinger Eigen Value Problem |
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第9週 |
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Localization Landscape Theory |
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第10週 |
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Quantum transport |
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第11週 |
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tight binding method for band structure solving |
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第12週 |
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tight binding method for band structure solving |
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第13週 |
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k.p solver |
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第14週 |
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Phonon despersion relation
Monte Carlo carrier transport theory |
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第15週 |
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Monte Carlo carrier transport theory |
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第17週 |
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Final Report |
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第18週 |
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Tutorial of NTU-ITRI DDCC solver (on line Program) |
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