Title :
Finite-band noise theory and experiment for four-wave mixing in RZ transmission systems
Author :
Kumar, S. ; Luther, G.G. ; Hurley, J.
Author_Institution :
Sci. & Technol. Div., Corning Inc., NY, USA
Abstract :
The finite-band noise theory of four wave mixing (FWM) is introduced. It was validated using simulations and experiments. It predicts FWM noise scaling with bit alignment among channels and enables comparisons between RZ and NRZ modulation formats. We introduced a general finite-band technique for calculating the contribution of FWM to Q and validated it using both numerical simulations and laboratory experiments. This theory shows that the level of FWM noise or cross talk decreases as the bit slots are shifted and that the FWM Q for RZ formatted data tends to be larger than that in systems with NRZ modulation.
Keywords :
multiwave mixing; optical crosstalk; optical fibre communication; optical noise; telecommunication channels; wavelength division multiplexing; FWM; FWM noise; FWM noise scaling; NRZ modulation; NRZ modulation formats; RZ formatted data; RZ modulation formats; RZ transmission systems; cross talk; finite-band noise theory; finite-band technique; four-wave mixing; numerical simulations; Four-wave mixing; Nonlinear optics; Numerical simulation; Optical crosstalk; Optical mixing; Optical modulation; Optical noise; Optical receivers; Optical signal processing; Wavelength division multiplexing;
Conference_Titel :
Optical Fiber Communication Conference and Exhibit, 2001. OFC 2001
Conference_Location :
Anaheim, CA, USA
Print_ISBN :
1-55752-655-9
