Courses:

Semiconductor Optoelectronics: Theory and Design >> Content Detail



Syllabus



Syllabus

Amazon logo Help support MIT OpenCourseWare by shopping at Amazon.com! MIT OpenCourseWare offers direct links to Amazon.com to purchase the books cited in this course. Click on the book titles and purchase the book from Amazon.com, and MIT OpenCourseWare will receive up to 10% of all purchases you make. Your support will enable MIT to continue offering open access to MIT courses.

6.977 Semiconductor Optoelectronics: Theory and Design

Pre-requisites: Quantum Mechanics, Solid-state Devices, Electromagnetic Waves

Instructor: Prof. Rajeev J. Ram

Course Objective
This class focuses on the physics of the interaction of photons with semiconductor materials. The band theory of solids is used to calculate the absorption and gain of semiconductor media. The rate equation formalism is used to develop the concepts of laser threshold, population inversion and modulation response. Matrix methods and coupled mode theory are applied to resonator structures such as distributed feedback lasers, tunable lasers and mirroring devices. The course is also intended to introduce students to noise models for semiconductor devices and to applications of optoelectronic devices to fiber optic communications. Homework problems will be drawn from the current research literature.
Grades

60 %  8 problem sets

20 %  1 midterm quiz

20 %  1 term project

Text

Coldren, and Corzine. Diode Lasers and Photonic Integrated Circuits. 1st ed. New York, NY: Wiley-Interscience, October 16, 1995. ISBN: 0471118753.

Chuang, S. L. Physics of Optoelectronic Devices. New York, NY: Wiley-Interscience, September 8, 1995. ISBN: 0471109398.



 



 








© 2010-2021 OpenCollege.com, All Rights Reserved.
Open College is a service mark of AmeriCareers LLC.