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Semiconductor Optoelectronics Devices - Course Syllabus ______________________________________________________________________ Course Number: EE 208 Course Title: Semiconductor Optoelectronics Devices Academic Semester: Semester Start Date: Fall Aug 21, 2016 Academic Year: Semester End Date: 2016/ 2017 Dec 21,2016 Class Schedule: Mondays and Wednesday, 10:30-12:30 Instructor(s) Name(s): Email: Boon S. Ooi [email protected] Office Location: Office Hours: Building 3, Level 3, Room 3218 Sunday, 16:00-18:00 COURSE DESCRIPTION FROM PROGRAM GUIDE Materials for optoelectronics, optical processes in semiconductors, absorption and radiation, transition rates and carrier lifetime. Principles of LEDs, lasers, photodetectors, modulators and solar cells. Optoelectronic integrated circuits. Designs, demonstrations and projects related to optoelectronic device phenomena. COMPREHENSIVE COURSE DESCRIPTION Materials for optoelectronics, optical processes in semiconductors, absorption and radiation, transition rates and carrier lifetime. Principles of LEDs, lasers, photodetectors, modulators and solar cells. Optoelectronic integrated circuits. Designs, demonstrations and projects related to optoelectronic device phenomena GOALS AND OBJECTIVES Upon completing the class, students are expected to acquire sufficient knowledge to design, fabricate and characterize optoelectronic devices such as LEDs, laser diodes, photodiode, etc. REQUIRED KNOWLEDGE Semiconductor fundamentals and diode theory REFERENCE TEXTS “Optical Semiconductor Devices”, by Mitsuo Fukuda, ISBN: 978-0-471-14959-0, Wiley METHOD OF EVALUATION Graded content Homework: 20%, midterm: 20%, final: 20% and labs: 40%. COURSE REQUIREMENTS Assignments Students must work independently on their homework, project, exams, labs and other assignments. Course Policies Late homework and assignments will not be accepted. Additional Information N/A. NOTE The instructor reserves the right to make changes to this syllabus as necessary.
