課程資訊
課程名稱
強場雷射技術
High-Field Laser Technology 
開課學期
101-1 
授課對象
理學院  物理學研究所  
授課教師
張嘉升 
課號
Phys8105 
課程識別碼
222ED5370 
班次
 
學分
全/半年
半年 
必/選修
選修 
上課時間
星期二3,4,@(10:20~) 
上課地點
 
備註
本課程以英語授課。中研院原分所(視訊) 中央大學
總人數上限:10人 
 
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課程概述

Course information
Course Name: High-Field Laser Technology
Course No.: NCU - PH6086
Class time: 10 am~ 1 pm, Tuesday
Location: S4-209 (at NCU) and IAMS-404 (or another room, if there are more than 3
persons)
Class Language: English
Prerequisite: fundamental optics
Course Objective:
(1) Use learning the construction of a high-peak-power ultrashort-pulse laser
system as a platform to let the students grasp the essence of the four pillars of
optics (EM wave propagation, Fourier optics, nonlinear optics, and laser) and
learn how to apply them in real works.
(2) Teach the students the step-by-step procedure for building a
high-peak-power ultrashort-pulse laser system.
Content:
1. Fundamental Optics
1.1. Laser propagation in a medium
1.2. Fourier optics
1.3. Nonlinear optics
1.4. Laser oscillator
2. High-field laser technology
2.1. Architecture of a high-peak-power laser system
2.2. Ultrashort-pulse mode-locked laser oscillator
2.3. Carrier-envelope phase control
2.4. First-stage amplifier (eight-pass amplifier) and pulse selector/cleaner
2.5. First-stage amplifier (regenerative amplifier)
2.6. Late-stage amplifier (power amplifier) and spatial filter
2.7. Pulse stretcher and compressor, global dispersion compensation
2.8. Ultrafast pulse cleaner, frequency converter, and control of nonlinear
effects
2.9. Electronic control system and online monitoring system
2.10. Control and measurement of temporal waveform
2.11. Control and measurement of spatial waveform
2.12. Nd:YAG laser technology
Teaching materials:
Use class handouts which can be downloaded from BB station
https://bb.ncu.edu.tw/ (for anyone with an NCU account) or
http://ltl.iams.sinica.edu.tw/laser-technology/high-field_laser_technology.ht
ml (for anyone).
References:
(1) Ultrashort Laser Pulse Phenomena by Diels; Waves and fields in
optoelectronics by Haus; Optical waves in crystals by Yariv
(2) The Fourier Transform and Its Applications by Bracewell
(3) Nonlinear Optics by Boyd
(4) Lasers by Siegman
Form of evaluation
The mid-term exam accounts for 50% and the final exam accounts for 50%. The
content of the exams are focused on the underlying fundamental physical
concepts of various processes or techniques. 

課程目標
Course information
Course Name: High-Field Laser Technology
Course No.: NCU - PH6086
Class time: 10 am~ 1 pm, Tuesday
Location: S4-209 (at NCU) and IAMS-404 (or another room, if there are more than 3
persons)
Class Language: English
Prerequisite: fundamental optics
Course Objective:
(1) Use learning the construction of a high-peak-power ultrashort-pulse laser
system as a platform to let the students grasp the essence of the four pillars of
optics (EM wave propagation, Fourier optics, nonlinear optics, and laser) and
learn how to apply them in real works.
(2) Teach the students the step-by-step procedure for building a
high-peak-power ultrashort-pulse laser system.
Content:
1. Fundamental Optics
1.1. Laser propagation in a medium
1.2. Fourier optics
1.3. Nonlinear optics
1.4. Laser oscillator
2. High-field laser technology
2.1. Architecture of a high-peak-power laser system
2.2. Ultrashort-pulse mode-locked laser oscillator
2.3. Carrier-envelope phase control
2.4. First-stage amplifier (eight-pass amplifier) and pulse selector/cleaner
2.5. First-stage amplifier (regenerative amplifier)
2.6. Late-stage amplifier (power amplifier) and spatial filter
2.7. Pulse stretcher and compressor, global dispersion compensation
2.8. Ultrafast pulse cleaner, frequency converter, and control of nonlinear
effects
2.9. Electronic control system and online monitoring system
2.10. Control and measurement of temporal waveform
2.11. Control and measurement of spatial waveform
2.12. Nd:YAG laser technology
Teaching materials:
Use class handouts which can be downloaded from BB station
https://bb.ncu.edu.tw/ (for anyone with an NCU account) or
http://ltl.iams.sinica.edu.tw/laser-technology/high-field_laser_technology.ht
ml (for anyone).
References:
(1) Ultrashort Laser Pulse Phenomena by Diels; Waves and fields in
optoelectronics by Haus; Optical waves in crystals by Yariv
(2) The Fourier Transform and Its Applications by Bracewell
(3) Nonlinear Optics by Boyd
(4) Lasers by Siegman
Form of evaluation
The mid-term exam accounts for 50% and the final exam accounts for 50%. The
content of the exams are focused on the underlying fundamental physical
concepts of various processes or techniques. 
課程要求
 
預期每週課後學習時數
 
Office Hours
 
參考書目
 
指定閱讀
 
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(僅供參考)
   
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