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課程名稱 |
奈米科技導論
Introduction to Nanotechnology |
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開課學期 |
111-1 |
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授課對象 |
永續化學科技國際研究生博士學位學程 |
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授課教師 |
張嘉升 |
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課號 |
Phys8098 |
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課程識別碼 |
222ED5340 |
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班次 |
02 |
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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 |
星期一6,7,8(13:20~16:20) |
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上課地點 |
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備註 |
本課程以英語授課。1.02班限化學與生物背景學生修習
2.上課地點:中研院物理所P101
總人數上限:20人
外系人數限制:2人 |
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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 |
Introduction to Nanotechnology (B)
First Class: 13:30, September 5, 2022
For the first few weeks, the course will taught on-line:
https://asmeet.webex.com/asmeet-en/j.php?MTID=maa7c5b66173acaf64939e68354d66da1
Meeting number: 2514 240 0766
Password: 2022B
Credits: 3
Instructors: Pao, Chun-Wei 包淳偉老師; Shih Min-Hsiung 施閔雄老師; Koji Hatanaka 畑中耕治; Chen, Chi 陳祺老師; Kaun, Chao-Cheng 關肇正老師
Class hour: Monday 13:30-16:30
Classroom: Room 5B05, Interdisciplinary Research Building for Science and Technology, AS
https://www.phys.sinica.edu.tw/TIGP-NANO/Course/2022_Fall/2022_Fall_Intro%20Nano%20B.html |
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課程目標 |
Syllabus 1: Dr. Chun-Wei Pao
(9/5) Surface and Interface
– surface energy, surface reconstruction, domain boundary, crystal shapes
(9/12) Diffusion and Mass Transport
– atomistic picture, surface/interface diffusion, diffusion in solids (battery) and soft matters
(9/19) Nucleation and Growth
– homogeneous/heterogeneous nucleation, thin film growth modes, growth of nanocrystals and 2D materials.
References: relevant literatures in each subjects
Syllabus 2: Dr. Min-Hsiung Shih
(09/26) The fundamental tools for photonic crystals
– Photonic Maxwell’s equations, wave equation, light propagation in the mater
– Simulation tools: plane wave expansion (PWE) method
– Simulation tools: finite-difference time-domain (FDTD) method
– Photonic band structure
(10/03) Photonic crystal cavity laser
– Defect modes inside the band gap
– Quality factor of a cavity and photon lifetime
– Different types of micro-cavities
– Applications: lasers, LEDs and etc
– Cavity QED
(10/17) Photonic crystal waveguides and integrated circuits
– Defect bands inside the band gap
– Propagation loss issue
– Different types of photonic crystal waveguides
– Applications
References:
J. D. Joannopoulos, R.D. Meade and J.N. Winn, Photonic crystals: Molding the follow of light (1995)
J.-M. Lourtioz et al., Photonic crystals: towards nanoscale photonic devices (2005)
K. Sakoda, Optical properties of photonic crystals (2001)
K. Inoue and K. Ohtaka, Photonic crystals: physics, fabrication, and applications (2004)
A. Yariv and P. Yeh, Optical waves in crystals (1984)
Syllabus 3: Dr. Chi Chen
Spectroscopy of Nanomaterials and Near-field optics
(10/24) Nano semiconductors
– quantum confinement, excitons, quantum dots, and quantum wells
(10/31) Nano carbons
– C60, carbon nanotubes, graphenes, and nanodiamonds
(11/07) Near-field optics
– spatial resolution, near-field, experimental realization, and examples
References: relevant literatures in each subjects
Syllabus 4: Dr. Chao-Cheng Kaun
(11/14, 11/21 and 11/28)
Electron Transport
– Two Key Concepts, Why Electrons Flow, Conductance Formula, Ballistic (B) Conductance, Diffusive (D) Conductance, Connecting Ballistic (B) to Diffusive (D), Angular Averaging, Drude Formula
Energy Band Model
– E(p) or E(k) Relation, Counting States, Density of States, Number of Modes, Electron Density (n), Conductivity vs. Electron Density (n), Quantum Capacitance, The Nanotransistor
What and Where is the Voltage?
– A New Boundary Condition, Quasi-Fermi Levels (QFL's), Current from QFL's, Landauer Formulas, What a Probe Measures, Electrostatic Potential, Boltzmann Equation, Spin Voltages
Heat and Electricity: Second Law & Information
– Seebeck Coefficient, Heat Current, One-level Device, Second Law, Entropy, Law of Equilibrium, Shannon Entropy, Fuel Value of Information
References: 1. Lessons from Nanoelectronics: A. Basic Concepts, Supriyo Datta
Syllabus 5: Dr. Koji Hatanaka
(12/5) light and matters
light - photons, waves, polarization, propagation
matters - atoms, electrons, energy
light absorption and emission in matters - light/matter interaction, oscillation, second harmonic
spectroscopy in uv-vis.-nearIR, X-ray, and THz -l ight/matter interaction, energy levels
(12/12) “spectroscopy in your hand”
optics for spectroscopy - light source, lens, mirror, grating, polarizer, detector
make your own “spectrometer” - “Apolo13”
measurements with your “spectrometer”
(12/19) advanced spectroscopy
from “static” to “dynamic” - life time, transient state, decay dynamics
pulsed laser - nanosecond, picosecond, femtosecond, attosecond
fast detectors - streak camera
time-resolved measurements - pump&probe method
References: relevant literatures in each subjects |
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課程要求 |
待補 |
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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 |
待補 |
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評量方式
(僅供參考) |
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