|
|
BEET 5-IV- OPTICAL FIBER COMMUNICATION
1 ELEMENTARY DISCUSSION OF PROPAGATION IN DIELECTRIC WAVEGUIDES
Introduction, Step-index fibers: numerical aperture and multi path dispersion, Propagation and multipath dispersion in graded-index fibers, Modes and rays, The slab waveguide
2 MATERIAL DISPERSION
Refractive index: theory, The refractive indices of bulk media: experimental values, Time dispersion in bulk media, The wavelength of minimum dispersion
3 ATTENUATION MECHANISMS IN OPTICAL FIBERS
Introduction, Absorption, Scattering, Other very low-loss materials, All-plastic and polymer-clad-silica (PCS) fibers, Damage by ionizing radiation
4 SYSTEM CONSIDERATIONS
The optimum wavelength for silica fibers, The ultimate bandwidth limitation, A comparison between optical fibers and conventional electrical transmission lines
5 SINGLE-MODE FIBERS
Types of single-mode fiber, Mode spot size, HE 11 mode propagation characteristics
6 THE FABRICATION OF FIBERS, CABLES AND PASSIVE COMPONENTS
Fiber production methods, Fiber strength, Cables, Splices and connectors
7 FIBER PARAMETERS: SPECIFICATION AND MEASUREMENT
Introduction, The refractive-index profile, Near- and far-field intensity distributions, Attenuation measurements, Bandwidth measurements, Cutoff wavelength
8 THE DESIGN OF LEDS FOR OPTICAL COMMUNICATION
The external quantum efficiency, The Burrus-type double heterostructure surface- emitting LED (DH-SLED), The stripe-geometry, edge-emitting LED (ELED), LED-to-fiber launch efficiency, Lensed LED-to-fiber launch systems, LED designs
9 SEMICONDUCTOR LASERS
The theory of laser action in semiconductors, Some simplified calculations, Modulation frequency response, Noise in semiconductor lasers
10 SEMICONDUCTOR LASERS FOR OPTICAL FIBER COMMUNICATION SYSTEMS
Introduction, Methods for obtaining the stripe geometry, Optical and electrical characteristics of Fabry-Perot lasers, Spectral characteristics, Power and voltage characteristics, Quantum-well lasers and laser arrays, Single frequency semiconductor lasers, The reliability of DH semiconductor LEDs and lasers, The transmitter module
11 THE RECEIVER AMPLIFIER
Introduction, Sources of receiver noise, Circuits, devices and definitions, Signal-to-noise ratio in the voltage amplifier circuit, Signal-to-noise ratio in the transimpedance feedback amplifier, The ideal quantum-limited receiver, Amplifier design examples
12 THE REGENERATION OF DIGITAL SIGNALS
Causes of regeneration error, The quantum limit to detection, The effect of amplifier noise and thermal noise on the error probability, Noise penalties in practical system
13 OPTICAL FIBER COMMUNICATION SYSTEMS
Introduction, The economic merits of optical fiber systems, Digital optical fiber telecommunication systems, Data communication networks, Analog systems, The optical ether
For more details, visit http://www.rvduniversity.com/index.php?option=com_jotloader&cid=8&Itemid=57
|
No responses found. Be the first to respond and make money from revenue sharing program.
|