Coherent and Nonlinear Lightwave CommunicationsThis is a practical source on recent developments in coherent and nonlinear lightwave communications. The book systematically presents up-to-date explanations of all the relevant physical principles and recent research in this emerging area. Providing an unparallelled engineering-level treatment (with 700 equations), this reference also describes the progression of coherent and nonlinear technology from yesterday's experimental field to today's practical applications tool. This work is intended as a tool for research telecommunication engineers, applications engineers working with broadband telecom systems and networks, and postgraduate students. |
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Page 143
... region of only 300 nm . It means that single mode optical fibers provide the transmission of more than 2,000 optical channels in the minimum - loss region between 1.3 μm and 1.6 μm , but the proper selection of the channels in the ...
... region of only 300 nm . It means that single mode optical fibers provide the transmission of more than 2,000 optical channels in the minimum - loss region between 1.3 μm and 1.6 μm , but the proper selection of the channels in the ...
Page 223
... region [ 20 ] . Although we discuss only Raman amplifiers , it should be noted that Brillouin amplifiers also can be ... region , the most suitable region for optical - signal transmission in silica - based optical fibers . The active ...
... region [ 20 ] . Although we discuss only Raman amplifiers , it should be noted that Brillouin amplifiers also can be ... region , the most suitable region for optical - signal transmission in silica - based optical fibers . The active ...
Page 268
... region Af by piezoelectrically tuning length L through one optical half - wavelength . The tuning range depends on the filter length , according to ( 9.99 ) . For a tuning range of about 100 GHz , the filter length should be L < 1 mm ...
... region Af by piezoelectrically tuning length L through one optical half - wavelength . The tuning range depends on the filter length , according to ( 9.99 ) . For a tuning range of about 100 GHz , the filter length should be L < 1 mm ...
Contents
Optical Transmitters for Coherent Lightwave Systems | 3 |
Coherent Optical Receiver Sensitivity | 15 |
61 | 31 |
Copyright | |
12 other sections not shown
Common terms and phrases
amplification coefficient amplitude Brillouin scattering channels Chapter characteristics coherent detection coherent lightwave system coherent optical receiver components corresponding detection scheme digit interval dispersion DPSK electric field energy equal equation erbium-doped fiber amplifiers error probability evaluated Figure filter frequency shift Gaussian Hence heterodyne detection homodyne detection IEEE IEEE/OSA incoming optical signal influence input laser amplifiers length Lett lightwave communications lightwave systems Lightwave Techn loss modulating signal multichannel nonlinear effects nonlinear lightwave system optical amplifiers optical oscillator optical power optical transmitter optical-fiber parameters phase modulation phase noise phase shift photodetector photodiode photons polarization propagation PSK signals pump signal R₁ Raman amplification Raman amplifiers ratio realization receiver sensitivity refractive index resonator scattered signal self-phase modulation semiconductor laser signal power single-mode optical fiber soliton pulses soliton regime spectral linewidth spontaneous emission stimulated Raman scattering term thermal noise transmission system variance voltage width