Author/Authors :
Jabbari, M. Department of Electrical Engineering - Islamic Azad University - Marvdasht Branch - Marvdasht, Iran, , MoravvejFarshi, M.K. Department of Electrical Engineering - Tarbiat Modares University - Tehran, Iran , Ghayour, R. Department of Electrical Engineering - Shiraz University - Shiraz, Iran , Zarifkar, A. Iran Telecomm Research Center - Tehran, Iran
Abstract :
Deriving a dynamic model based on the coupled-mode and carrier rate equations, the effects of coupling coefficient
and corrugation position on all-optical flip-flops (AOFF) we have analyzed in this paper. Also the self phase
modulation (SPM) in the distributed coupling coefficient distributed feedback semiconductor optical amplifier (DCCDFB-
SOA) has been implemented. Then the effects of SPM on the rise and fall times of the flip-flop DFB-SOA are
investigated. It has been shown that the application of the optimized coupling coefficient and corrugation position
improves the speed limitation in A OFF significantly. The transfer matrix method (TMM) time domain is utilized for
the numerical simulations.
Keywords :
All-Optical Flip-Flops (AOFF) , Distributed Coupling Coefficient (DCC) , Semiconductor Optical Amplifier (SOA) , Self Phase Modulation (SPM)
