Title :
Communications theory analysis of multichannel carrier density intermodulation distortion effects in a semiconductor optical amplifier
Author :
Hodgkinson, T.G. ; Webb, R.P.
Author_Institution :
British Telecom Res. Lab., Ipswich, UK
Abstract :
It is shown that, for worst-case conditions, four-wave mixing effects in a traveling-wave semiconductor optical amplifier can result in the individual carriers experiencing different gains depending on channel separation, multiplex size, and channel position. It is also shown that the highest-frequency carrier experiences the lowest gain and that the position of the minimum gain never exceeds Delta omega tau /sub e/>1. For worst-case multichannel system design, it is anticipated that four-wave mixing effects will be negligible if normalized channel separations >or=10 Delta omega tau /sub e/ (of order >or=3 GHz) are used, and it is envisaged that, for practical gigabit/second frequency multiplexed coherent systems, this will be automatically satisfied.<>
Keywords :
carrier density; intermodulation; optical communication equipment; optical modulation; semiconductor junction lasers; telecommunication channels; channel position; channel separation; communications theory; four-wave mixing effects; gain; gigabit/second frequency multiplexed coherent systems; multichannel carrier density intermodulation distortion effects; multiplex size; semiconductor optical amplifier; travelling-wave optical amplifier; Charge carrier density; Four-wave mixing; Intermodulation distortion; Nonlinear optics; Optical amplifiers; Optical distortion; Optical mixing; Power amplifiers; Semiconductor optical amplifiers; Stimulated emission;
Journal_Title :
Photonics Technology Letters, IEEE
