1. INTRODUCTION TO LIGHTING 2. COLOR SCIENCE 3. INRODUCTION TO DIODES 4. CARRIER RECEOMBINATION 5. LED MATERIAL AND DEVICE 6. HIGH POWER LEDS 7. APPLICATION OF LEDS College of Electrical Engineering & Computer Science NONE! UNDERGRADUATE STUDENTS ARE EXTREMELY WELCOME TO TAKE THE COURSE! JIAN JANG HUANG Tuesday 789 OE5040 3

EACH LECTURE WILL BE TAILORED ACCORDING TO STUDENTS UNDERSTANDING. SUBJECTS TO BE COVERED FOR THIS COURSE ARE AS FOLLOWS: 1) THEORETICAL REVIEW OF ELECTROMAGNETISM 2) INTRODUCTION TO VARIOUS OPTICAL SIMULATION TECHNIQUES 3) MONTE CARLO TECHNIQUE 4) NUMERICAL SOLUTIONS OF MAXWELL’S EQUATIONS 5) APPLICATION OF THE TAYLOR’S EXPANSION 6) SCALAR WAVE EQUATION 7) THE FINITE-DIFFERENCE TIME-DOMAIN TECHNIQUE 8) PRAGMATIC SIMULATION OF OPTICAL PROBLEMS College of Electrical Engineering & Computer Science PREREQUISITES: – GENERAL PHYSICS – CALCULUS – ELECTROMAGNETISM – BASIC PROGRAMMING SKILLS (MATLAB, FORTRAN, OR C/C++) GRADING FACTORS: ASSIGNMENTS: 35% MIDTERM EXAM: 25% FINAL EXAM: 30% PARTICIPATION IN CLASS : 10% GRADING FACTORS INCLUDE AN ASSESSMENT OF STUDENTS’ UNDERSTANDING OF THE COURSE CONTENT, PARTICIPATION IN CLASS, AND THEIR ABILITY IN COMPLETING THE ASSIGNMENTS. SIMULATION ASSIGNMENTS ARE DESIGNED TO PREPARE STUDENTS WITH HANDS-ON EXPERIENCE OF LIGHT PROPAGATION SIMULATION. STUDENTS ARE EXPECTED TO BECOME FAMILIAR WITH MATLAB. MIDTERM AND FINAL EXAMS WILL SERVE THE PURPOSE TO EVALUATE STUDENTS’ LEARNING PROGRESS. GRADES THUS ARE GIVEN BASED UPON STUDENTS’ ABILITY IN CARRYING OUT THE ASSIGNMENTS AND THEIR PERFORMANCE IN THE MIDTERM AND FINAL EXAMS. Wednesday 789 OE5047 3

EACH LECTURE WILL BE TAILORED ACCORDING TO STUDENTS UNDERSTANDING. SUBJECTS TO BE COVERED FOR THIS COURSE ARE AS FOLLOWS: 1) THEORETICAL REVIEW OF ELECTROMAGNETISM 2) INTRODUCTION TO VARIOUS OPTICAL SIMULATION TECHNIQUES 3) MONTE CARLO TECHNIQUE 4) NUMERICAL SOLUTIONS OF MAXWELL’S EQUATIONS 5) APPLICATION OF THE TAYLOR’S EXPANSION 6) SCALAR WAVE EQUATION 7) THE FINITE-DIFFERENCE TIME-DOMAIN TECHNIQUE 8) PRAGMATIC SIMULATION OF OPTICAL PROBLEMS College of Electrical Engineering & Computer Science PREREQUISITES: – GENERAL PHYSICS – CALCULUS – ELECTROMAGNETISM – BASIC PROGRAMMING SKILLS (MATLAB, FORTRAN, OR C/C++) GRADING FACTORS: ASSIGNMENTS: 35% MIDTERM EXAM: 25% FINAL EXAM: 30% PARTICIPATION IN CLASS : 10% GRADING FACTORS INCLUDE AN ASSESSMENT OF STUDENTS’ UNDERSTANDING OF THE COURSE CONTENT, PARTICIPATION IN CLASS, AND THEIR ABILITY IN COMPLETING THE ASSIGNMENTS. SIMULATION ASSIGNMENTS ARE DESIGNED TO PREPARE STUDENTS WITH HANDS-ON EXPERIENCE OF LIGHT PROPAGATION SIMULATION. STUDENTS ARE EXPECTED TO BECOME FAMILIAR WITH MATLAB. MIDTERM AND FINAL EXAMS WILL SERVE THE PURPOSE TO EVALUATE STUDENTS’ LEARNING PROGRESS. GRADES THUS ARE GIVEN BASED UPON STUDENTS’ ABILITY IN CARRYING OUT THE ASSIGNMENTS AND THEIR PERFORMANCE IN THE MIDTERM AND FINAL EXAMS. Wednesday 789 OE5047 3

Overview Logic simulation Fault modeling Fault simulation Testability analysis Combinational ATPG Sequential ATPG Delay fault testing Diagnosis Design for Testability Built-in Self Test provide basic knowledge in VLSI testing. College of Electrical Engineering & Computer Science grading Homework: 8% Programming assignment: 30% Exam: 30% Term Project: 30% Class Participation 2% prerequisites Logic Design Computer Programming CHIEN-MO LI Tuesday 234 EEE5001 3

1. INTRODUCTION TO LIGHTING 2. COLOR SCIENCE 3. INRODUCTION TO DIODES 4. CARRIER RECEOMBINATION 5. LED MATERIAL AND DEVICE 6. HIGH POWER LEDS 7. APPLICATION OF LEDS VARIOUS PROGRAM NONE! UNDERGRADUATE STUDENTS ARE EXTREMELY WELCOME TO TAKE THE COURSE! JIAN JANG HUANG Tuesday 789 OE5040 3

THIS INTRODUCTORY COURSE FOCUSES ON THE FUNDAMENTAL PRINCIPLES OF LIQUID CRYSTALS AND LIQUID CRYSTAL DISPLAYS (LCDS). IT IS INTENDED TO PROVIDE STUDENTS WITH A SOLID BACKGROUND IN VARIOUS ASPECTS (INCLUDING MATERIALS, DEVICE PRINCIPLES, ELECTRO-OPTIC EFFECTS & OPTICS OF LCDS) OF THIS INTERDISCIPLINARY SUBJECT. BELOW IS A BRIEF OUTLINE OF THIS COURSE: 1) LIQUID CRYSTAL MATERIAL PROPERTIES 2) LIQUID CRYSTAL PHYSICAL & OPTICAL PROPERTIES 3) PRINCIPLES OF TN AND STN LCDS (INCLUDING OPTICS OF LCDS) 4) PRINCIPLES OF OTHER LIQUID CRYSTAL ELECTRO-OPTIC EFFECTS & DISPLAYS 5) INTRODUCTION TO THIN-FILM-TRANSISTOR LIQUID-CRYSTAL-DISPLAYS (TFT-LCDS) College of Electrical Engineering & Computer Science 1) OPTICS OF LIQUID CRYSTAL DISPLAYS, BY P. YEH & C. GU (WILEY, 1999) 2) LIQUID CRYSTALS: APPLICATIONS AND USES, EDITED BY B. BAHADUR (WORLD SCIENTIFIC 1991) 3) REFLECTIVE LIQUID CRYSTAL DISPLAYS, BY S.T. WU & D.K. YANG (WILEY, 2002) 4) INTRODUCTION TO LIQUID CRYSTALS, BY P.COLLINGS AND M. HIRD (TAYLOR & FRANCIS, 1997) 3) GRADING: HOMEWORK 20%, MIDTERM EXAM 40%, FINAL EXAM 40% WING-KIT CHOI Thursday 89X OE5011 3

The major topics include: 1) Introduction: development from MEMS to NEMS 2) Fabrication technologies of micro devices and nano-etch technology 3) Governing physics in micro/nano world, actuation mechanisms, and mechanical structures 4) Short introduction to optics in free space and waveguides 5) Optical MEMS/NEMS devices and case studies 6) Presentations and/or reports by students This course will focus on micro/nano devices and their applications. The material will cover the principles, designs, and fabrication processes behind this emerging technology. College of Electrical Engineering & Computer Science Grading: Midterm Exam 30% Final Exam 40% Project 30% JUI-CHE TSAI Wednesday 234 OE5027 3

The major topics include: 1) Introduction: development from MEMS to NEMS 2) Fabrication technologies of micro devices and nano-etch technology 3) Governing physics in micro/nano world, actuation mechanisms, and mechanical structures 4) Short introduction to optics in free space and waveguides 5) Optical MEMS/NEMS devices and case studies 6) Presentations and/or reports by students This course will focus on micro/nano devices and their applications. The material will cover the principles, designs, and fabrication processes behind this emerging technology. College of Electrical Engineering & Computer Science Grading: Midterm Exam 30% Final Exam 40% Project 30% JUI-CHE TSAI Wednesday 234 OE5027 3

The major topics include: 1) Introduction: development from MEMS to NEMS 2) Fabrication technologies of micro devices and nano-etch technology 3) Governing physics in micro/nano world, actuation mechanisms, and mechanical structures 4) Short introduction to optics in free space and waveguides 5) Optical MEMS/NEMS devices and case studies 6) Presentations and/or reports by students This course will focus on micro/nano devices and their applications. The material will cover the principles, designs, and fabrication processes behind this emerging technology. College of Electrical Engineering & Computer Science Grading: Midterm Exam 30% Final Exam 40% Project 30% JUI-CHE TSAI Wednesday 234 OE5027 3

1. INTRODUCTION TO LIGHTING 2. COLOR SCIENCE 3. INRODUCTION TO DIODES 4. CARRIER RECEOMBINATION 5. LED MATERIAL AND DEVICE 6. HIGH POWER LEDS 7. APPLICATION OF LEDS College of Electrical Engineering & Computer Science NONE! UNDERGRADUATE STUDENTS ARE EXTREMELY WELCOME TO TAKE THE COURSE! JIAN JANG HUANG Tuesday 789 OE5040 3

THE COURSE INCLUDE EBEAM TECHNOLOGY STUDY AND TRAINING 1.TRAINING ON SEM: UTILIZE SEM TO OBSERVE THE NANO-STRUCTURE ON THE SURFACE. THE ACCELERATION VOLTAGE IS FROM 500V TO 30KV. 2.TRAINING ON E-BEAM LITHOGRAPHY: UTILIZE E-BEAM LITHOGRAPHY TO FABRICATE THE NANO-STRUCTURE. THE ACCELERATION VOLTAGES ARE 50KV AND 100KV. 3.TRAINING ON DUAL BEAM FOCUS ION BEAM: UTILIZE DUAL BEAM FOCUS ION BEAM TO ETCH THE SAMPLE AND OBSERVE IT BY ELECTRON BEAM AT THE SAME TIME. FURTHERMORE, IT INCLUDE THE DEPOSITION SYSTEM, LOW TEMPERATURE AND FABRICATE THE SAMPLE FOR TEM. 4. STUDY THE PARAMETERS OF E-BEAM LITHOGRAPHY ON DIFFERENT SUBSTRATES AND THE ISSUES OF FOLLOWING SEMICONDUCTOR PROCESS. 5. STUDY THE APPLICATIONS OF E-BEAM LITHOGRAPHY IN DIFFERENT RESEARCH AREAS, INCLUDING ELECTRONICS, PHOTONICS, OPTOELECTRONICS, BIOMEDICAL ELECTRONICS, AND MICRO MECHANICAL SYSTEMS. 6. FOCUS ON THE DISCUSSION OF STUDENTS’ RESEARCH TOPICS UNDER THEIR ORIGINAL ADVISORS. 7. FOR THE SPECICAL TOPIC, DISCUSS THE RELATED INFORMATION AND INVITE FAMOUS INTERNATIONAL SCHOLARS TO GIVE SPEECHES AND ADVICES. College of Electrical Engineering & Computer Science BECAUSE OF THE HIGH PRICE OF MAINTENANCE AND CONSUMABLES, THE STUDENTS WHO WANT TO TAKE THE COURSE NEED THEIR ADVISOR’S PERMISSION AND FUNDING. CHIEH-HSIUNG KUAN Wednesday 6 EEE5038 1

THE COURSE INCLUDE EBEAM TECHNOLOGY STUDY AND TRAINING 1.TRAINING ON SEM: UTILIZE SEM TO OBSERVE THE NANO-STRUCTURE ON THE SURFACE. THE ACCELERATION VOLTAGE IS FROM 500V TO 30KV. 2.TRAINING ON E-BEAM LITHOGRAPHY: UTILIZE E-BEAM LITHOGRAPHY TO FABRICATE THE NANO-STRUCTURE. THE ACCELERATION VOLTAGES ARE 50KV AND 100KV. 3.TRAINING ON DUAL BEAM FOCUS ION BEAM: UTILIZE DUAL BEAM FOCUS ION BEAM TO ETCH THE SAMPLE AND OBSERVE IT BY ELECTRON BEAM AT THE SAME TIME. FURTHERMORE, IT INCLUDE THE DEPOSITION SYSTEM, LOW TEMPERATURE AND FABRICATE THE SAMPLE FOR TEM. 4. STUDY THE PARAMETERS OF E-BEAM LITHOGRAPHY ON DIFFERENT SUBSTRATES AND THE ISSUES OF FOLLOWING SEMICONDUCTOR PROCESS. 5. STUDY THE APPLICATIONS OF E-BEAM LITHOGRAPHY IN DIFFERENT RESEARCH AREAS, INCLUDING ELECTRONICS, PHOTONICS, OPTOELECTRONICS, BIOMEDICAL ELECTRONICS, AND MICRO MECHANICAL SYSTEMS. 6. FOCUS ON THE DISCUSSION OF STUDENTS’ RESEARCH TOPICS UNDER THEIR ORIGINAL ADVISORS. 7. FOR THE SPECICAL TOPIC, DISCUSS THE RELATED INFORMATION AND INVITE FAMOUS INTERNATIONAL SCHOLARS TO GIVE SPEECHES AND ADVICES. College of Electrical Engineering & Computer Science BECAUSE OF THE HIGH PRICE OF MAINTENANCE AND CONSUMABLES, THE STUDENTS WHO WANT TO TAKE THE COURSE NEED THEIR ADVISOR’S PERMISSION AND FUNDING. CHIEH-HSIUNG KUAN Wednesday 6 EEE5038 1