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Courses » Semiconductor Optoelectronics

Semiconductor Optoelectronics

ABOUT THE COURSE:

This course introduces the students to the field of Semiconductor Optoelectronics, which deals with the physics and technology of semiconductor optoelectronic devices such as light emitting diodes, laser diodes and photodiodes, which are becoming important components in consumer optoelectronics, IT and communication devices, and in industrial instrumentation. Assuming a general science/engineering undergraduate level background, the course begins with a recap of essential (to this course) semiconductor physics, followed by the study of interaction of photons with electrons and holes in a semiconductor, leading to the realization of semiconductor photon amplifiers, sources, modulators, and detectors. A variety of designs and configurations of these devices have been emerging with application-specific characteristics. The course is ‘applied’ in nature, and could be offered at the level of B.E/B.Tech IIIrd/ IVth Year, M.Sc IInd/ M.Tech. I Year.

INTENDED AUDIENCE:
IIIrd, IVth year B.Tech / M.Sc (Physics/ Electronics/ Electronic Sciences) students, M.Tech Ist Sem students

CORE/ELECTIVE: Elective Course, can be Core also.

UG/PG: Primarily UG: can also be for M.Sc. or I Sem M.Tech Course .

PREREQUISITES: Basic undergraduate-level knowledge of Semiconductors, Optics, Electronics and Quantum Mechanics would be required.l

INDUSTRY SUPPORT: Companies and R&D Laboratories working on Laser Applications, Optoelectronic and Optical Communication are expected to value this course.

1268 students have enrolled already!!

ABOUT THE INSTRUCTOR:



M. R. SHENOY received the M. Sc. in Physics in 1979 from Mysore University and the PhD in the field of Fiber and Integrated Optics from IIT Delhi in 1987. He joined the faculty of IIT Delhi in 1988, where he is currently Professor in the Department of Physics. Dr. Shenoy was a Visiting Scientist with the Department of Electrical and Electronic Engineering, University of Glasgow, Glasgow, U.K., in 1990 for 10 months, and on short- duration visits at the University of Nice – Sophia Antipolis, Nice, France, in 1992, 1997, 2006 and 2008 for collaborative research on Integrated Optical Devices. He has authored/co- authored a number of research papers and book chapters, and has supervised a large number of student projects at the B.Tech, M.Sc. M.Tech and Ph.D. levels. He is a co-editor of the book Fiber Optics Through Experiments (Viva Publications, New Delhi, 1994, 2008). He has delivered a full video course of 46 lectures on Semiconductor Optoelectronics, facilitated by NPTEL, and freely available for download on YouTube. He has been involved in several Sponsored R&D projects on the design and development of guided-wave optical components and devices. His current research interests are in the area of Optoelectronics and Guided Wave Optical Components .

COURSE LAYOUT:

Week 1  :  Introduction, Energy bands in solids, Density of states
Week 2  :   Occupation probability and Carrier concentration, Quasi Fermi levels
Week 3  : Semiconductor optoelectronic materials and Heterostructures
Week 4  :  Heterostructure p-n junctions, Schottky junctions, Ohmic contacts
Week 5  :  Interaction of photons with electrons and holes in a semiconductor
Week 6  :  Amplification by stimulated emission, The semiconductor laser amplifier
Week 7  :  Absorption in semiconductors and quantum wells, Electro-absorption modulator
Week 8  :  Injection electroluminescence, Light emitting diode and their characteristics
Week 9  :  Semiconductor laser: Device structure and characteristics
Week 10  :  Single frequency lasers, VCSEL and Quantum well lasers
Week 11  :  Semiconductor photodetectors, General characteristics
Week 12  :  Photodiodes: PIN diode and APD. Photonic Integrated Circuits

SUGGESTED READING MATERIALS:

  •  B. E. A. Saleh and M. C. Teich, 2. 3. 4. 5. 6. 2 Fundamentals of Photonics, John Wiley & Sons, Inc., 2 nd Ed. (2007), Ch.16, 17, and 18. G. Ghione,
  • Semiconductor Devices for High-Speed Optoelectronics, Cambridge University Press (2009) A. Yariv and P. Yeh, Photonics: Optical Electronics in Modern Communication, Oxford University Press (2007), 6 th Ed., Ch.15-17. G. Keiser, Optical Fiber Communications, McGraw-Hill Inc., 3 rd Ed. (2000), Ch.4,
  • P. Bhattacharya, Semiconductor Optoelectronic Devices, Prentice Hall of India (1995). J. Singh, Semiconductor Optoelectronics: Physics and Technology, McGraw-Hill Inc. (1995).
  • W.D. Callister, Materials Science and Engineering: An Introduction, 6 th . Edn., Wiley, 2003.
CERTIFICATION EXAM :
  • The exam is optional for a fee.
  • Date and Time of Exams: April 28 (Saturday) and April 29 (Sunday) : Afternoon session: 2pm to 5pm
  • Exam for this course will be available in one session on both 28 and 29 April.
  • Registration url: Announcements will be made when the registration form is open for registrations.
  • The online registration form has to be filled and the certification exam fee needs to be paid. More details will be made available when the exam registration form is published.

CERTIFICATION:

  • Final score will be calculated as : 25% assignment score + 75% final exam score
  • 25% assignment score is calculated as 25% of average of  Best 8 out of 12 assignments
  • E-Certificate will be given to those who register and write the exam and score greater than or equal to 40% final score. Certificate will have your name, photograph and the score in the final exam with the breakup.It will have the logos of NPTEL and IITD.It will be e-verifiable at nptel.ac.in/noc.