奈米光子學

基本資訊:

開課學期
97-1
開課系所

光電科技學程 光電工程學研究所 電機工程學研究所奈米科技學程

課程編號
941 U0310
上課時間
星期五234
上課地點
明達303
課程網址
https://ceiba.ntu.edu.tw/971_nanophotonics
課程概述
1. Basic concepts in crystal
2. Band structure of the
3. crystal Structures
4. Phonons: Optical and Accoustic phonons. Polaritons
5. Excitons in Quantum well, quantum wire, and quantum dot
6. photonic crystal structures and its applications
7. Surface Plasmon and its applications
課程目標
1. Basic concepts in crystal
2. Band structure of the
3. crystal Structures
4. Phonons: Optical and Accoustic phonons. Polaritons
5. Excitons in Quantum well, quantum wire, and quantum dot
6. photonic crystal structures and its applications
7. Surface Plasmon and its applications
課程要求
Basic concept of Modern physic and optics
Office Hours
每週四 11:00~12:00 可另約時間
參考書目
Introduction to Solid State Physics
Electronic and optoelectronic properties of semiconductor structures -- Jasprit Singh
Physics of Optoelectronic Devices -- S. L. Chuang
課程講義
Nano photonic course note

評量方式:

1.
期中考
40%
-
2.
期末考
40%
-
3.
作業

15%

3 Homework

半導體光學

基本資訊:

開課學期
96-2, 97-2
開課系所

光電科技學程 光電工程學研究所

課程編號
941 U0090
上課時間
Tuesday 678
上課地點
EE II 104
課程網址
https://ceiba.ntu.edu.tw/972semi_op
課程概述
1. Structure properties of Semiconductor: Crystal growth, crystal structures, strain in heterostructure, polar materials.
2. Reviews on quantum mechanic theory: Schrodinger equations, quantum well, time-independent/time independent perturbation theory.
3. Semiconductor band structure: Bloch theorem of crystal, tight binding method, spin orbit coupling, and k.p method.
4. Band structure modification: Band structure of alloys, Band structure in quantum well and quantum dot, strain and deformation potential theory, polar heterostructures.
5. Transport and Scattering theory: Defect and carrier-carrier scattering (ionized impurity scattering, charged dislocation scattering, alloy scattering and interface roughness scattering, lattice vibrations, phonon scattering, polariton and plasmons.
6. Optical properties of semiconductors: Maxwell’s equations and vector potential, interband transitions, indirect interband transitions, charge injection, radiative recombination, non-radiative recombination, and LEDs. The materials will include Group IV, III-V (GaAs, GaN based materials), and II-VI (ZnO, ZnS)
7. Excitonic effects: Excitonic states in semiconductors, optical properties with inclusion of excitonic effects, excitonic states in quantum well, excitonic absorption, and excitonic broadening.
8. Modulations of optical properties: Modulation of optical properties, Electro-optic effect, and quantum confined stark effect.
課程目標
Understanding the basic physics of optoelectronic devices, including the band structure theory, carrier transport, and carrier recombination issues, etc.
課程要求
Basic concept of Modern physic and optics
Office Hours
Mon, Tue 10:00AM~12:00AM 可另約時間
參考書目
Electronic and optoelectronic properties of semiconductor structures -- Jasprit Singh

評量方式:

1.
期中考
25%
-
2.
期末考
35%
-
3.
作業

40%

10 Homework

光電導論

基本資訊:

開課學期
97-2
開課系所

光電科技學程 光電工程學研究所

課程編號
901 37500
上課時間
Monday 678
上課地點
MD 205
課程網址
https://ceiba.ntu.edu.tw/972_introopto
課程概述
Topic 0 Introduction
Topic 1 Ray Optics (Saleh Ch.1)
Topic 2 Wave Nature of Light (Kasap Ch.1)
Topic 3 Waveguides and Optical Fibers (Kasap Ch.2)
Topic 4 Light Emitting Diodes (Kasap Ch.3)
Topic 5 Stimulated Emission Devices – Lasers (Kasap Ch. 4)
Topic 6 Photodetectors (Kasap Ch. 5)
Topic 7 Photovoltaic Devices (Kasap Ch. 6)
Topic 9 Polarization and Modulation of Light (Kasap Ch. 7)
Topic 10 Miscellaneous Applications
課程目標
課程要求
Basic concept of physics
Office Hours
Mon Tue 10:00AM~12:00AM 可另約時間
參考書目
1. S. O. Kasap, "Optoelectronics and Photonics" Prentice Hall, 2001
2. C. A. Bennett, "Principles of Physocal Optics" Wiley, 2007
3. B. E. A. Saleh and M. C. Teich, "Fundamentals of Photonics (2nd Ed)" Wiley- Interscience, 2007

評量方式:

1.
期中考
30%
-
2.
期末考
40%
-
3.
作業

30%