OFC/NFOEC: Tuesday, March 8, 2005Optical Society of America, 2005 - Fiber optics |
From inside the book
Results 1-3 of 56
Page
... amplifier responses especially for constant power and constant current modes . It is interesting to see that although constant power and constant current mode can suppress optical burst with frequency below 1000 Hz , they can amplify ...
... amplifier responses especially for constant power and constant current modes . It is interesting to see that although constant power and constant current mode can suppress optical burst with frequency below 1000 Hz , they can amplify ...
Page
Optical burst amplification using EDFA with fast feedback control Kazuro Okamura , Eisuke Otani , Toru Yoshikawa ... amplifier controlled by a fast electrical feedback loop . Transmission without power penalty is demonstrated for various ...
Optical burst amplification using EDFA with fast feedback control Kazuro Okamura , Eisuke Otani , Toru Yoshikawa ... amplifier controlled by a fast electrical feedback loop . Transmission without power penalty is demonstrated for various ...
Page
... Optical Society of America OCIS codes : ( 250.4480 ) Optical amplifiers ; ( 060.4250 ) Networks ; ( 230.7370 ) Waveguides 1. Introduction A main concern in metro networks is their sensitivity to signal channel number reconfiguration ...
... Optical Society of America OCIS codes : ( 250.4480 ) Optical amplifiers ; ( 060.4250 ) Networks ; ( 230.7370 ) Waveguides 1. Introduction A main concern in metro networks is their sensitivity to signal channel number reconfiguration ...
Contents
AAELBKS | |
OTuB Measurement and Sensors | |
OTuC Optical Label Switching | |
12 other sections not shown
Common terms and phrases
achieved all-optical amplifier applications bandwidth birefringence burst channel clock codes combined communications compared components constant converter core cost coupling crystal delay demonstrated dependence detection devices dispersion DPSK EDFA effect efficiency electrical Electron erbium experiment experimental fiber Figure filter frequency function gain Gb/s Gbit/s grating IEEE increase input integrated intensity label laser length Lett light limited loss measured method mode modulation node noise nonlinear obtained operation optical output packet parameters path payload performance phase Photonic polarization port processing proposed pulse pump range reach receiver reduced References regeneration respectively response restoration sampling scheme sensitivity separation shown in Fig shows signal single spacing span spectrum switching technique temperature transmission tunable waveguide wavelength