Optical Amplifiers and Their Applications: From the Topical Meeting, July 11-13, 1996, Monterey, California |
Contents
High Sensitivity 1 3 µm Optically PreAmplified Receiver using Raman Gain | 12 |
Fast Gain Control in an ErbiumDoped Fiber Amplifier | 24 |
Gbs Adiabatic and PhaseStationary Soliton Transmission with SlidingFrequency | 32 |
28 other sections not shown
Common terms and phrases
1996 OAA Program 1996 Optical Society absorption ALCATEL ALCATEL ALSTHOM RECHERCHE all-optical ALSTHOM Applications attenuator bandwidth Bragg gratings cascaded channels codoped configuration coupler cross section demultiplexing devices dispersion compensation doped fiber EDFA efficiency Electron Er-doped Er³+-ions erbium erbium-doped fiber amplifiers experimental fiber laser fibre filter four-wave mixing frequency Gain dB Gb/s Gbit/s IEEE Photon input power input signal power laser diode length Lett Lightwave loss Lucent Technologies measured modulation multiplexing networks noise figure nonlinear OAA Program Committee Optical Amplifiers Optical Fiber OSA TOPS output power parameters polarization Power dBm preamplifier Program Committee eds pulse pump power Raman ratio semiconductor optical amplifiers shown in Fig signal gain signal input signal wavelength Society of America soliton spectra spectrum Technical Digest Technol TOPS on Optical transmission systems waveguide wavelength conversion Wavelength nm WDM systems WDM transmission