10/5/20151 Optoelectronics I A. Kosari Email: [email protected]@gmail.com...
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Transcript of 10/5/20151 Optoelectronics I A. Kosari Email: [email protected]@gmail.com...
04/19/23 2
Course Objectives
Understanding key design issues of optical communication link using optical fiber.
Understanding the major semiconductor optoelectronic devices.
Their physics and operating principles, Design, characteristics and applications Example of design considerations
04/19/23 3
Contents
Light propagation in waveguides (fibers, planar waveguides, couplers), (polarization, refraction, reflection, transmission, Maxwell’s equations and wave equations)
Optical and electronic properties of semiconductors
Light emitting diodes (material systems, physics of operation, structures, characteristics and reliability)
Laser diodes (spontaneous and stimulated emission, gain and loss, structures, time response, characteristics)
04/19/23 4
Contents
Optical detectors (optical absorption, physics of operation, structures, characteristics)
Optical communication systems
04/19/23 5
Text and References
J. Wilson, J. Hawkes, Optoelectronics, An Introduction, Prentice Hall Europe, 1998.
G. P. Agrawal, Fiber Optic Communication Systems, John Wiley & Sons, 2002.
J. Singh, Optoelectronics, An Introduction to Materials and Devices, McGraw-Hill, 1996.
H. C. Casey JR., M. B. Panish, Heterostructure Lasers, Part A, Academic Press, 1978.
J. M. Liu, Photonic Devices, Cambridge University Press, 2005.
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Text and References
D. A. B. Miller, Semiconductor Optoelectronic Devices, Stanford University, 1999.
P. Bhattacharya, Semiconductor Optoelectronic Devices, Prentice Hall International, 2002.
11
Optical Fiber
40 - 120 km
Up to 10,000 km
= 25 - 100 GHz (0.4 or 0.8 nm @ 1500 nm)
Amp Amp
1
2
3
N
WDMMux
R
R
R
R
WDMDeMux
Frequency-registeredtransmitters
Receivers
WDM Optical System