Holiday
DELTA台達212 R2R3F2
本課程旨在分析及設計積體光學主動元件,包含半導體雷射、光放大器、光調變器、光接收器及太陽能電池及相關電路模 型。修課學生將學到基本元件物理及在光通訊、光訊號處理、光纖感測的應用。期末會有實際操作模擬軟體設計元件的專題
Course keywords: 半導體雷射,光二極體,半導體光調變器,半導體光接收器,太陽能電池 光電半導體原理及應用 Optoelectronics Semiconductor - Principle and Applications 課程說明:介紹光電半體元件之原理及特性,培養學生設計及分析元件能力(Introduction to the principle of optoelectronics semiconductor devices, which can help students on device design and analysis) Content: 1. 固態物理及半導體元件簡介 (Introduction to Solid State Physics and Semiconductor Devices) Week1~Week3 2. 半導體發光二極體 (Semiconductor Light Emitting Diodes) Week4~Week6 3. 半導體雷射 (Semiconductor Laser) Week7~Week9 Midterm ---Week10 4. 光偵測器 (Photodetectors) Week11~Week13 5. 光調變器(Optical Modulator)Week14~Week15 6. 太陽能電池 (Photovoltaic Devices) Week16~Week17 Final ---Week18 Text Book: 1. "Photonic Devices", by Jia-Ming Liu, Cambridge Reference Book: 2. "Physics of Semiconductor Devices”, by S.M. Sze and K. K. NG, Wiley, Third Edition 3. “Optoelectronics and Photonics --- Principles and Practice”, S.O. Kasap, Prentice Hall 4. “Physics of Photonic Devices”, by S. L. Chuang, Wiley, Second Edition Grading: Homework: 20% Roll Call: 10% Mdterm: 35% Final: 45%
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Average Percentage 86.63
Std. Deviation 5.19
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