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Photonic Network Communications

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15-01-2018 | Original Paper

Design of all-optical JK, SR and T flip-flops using micro-ring resonator-based optical switch

Authors: Gaurav Kumar Bharti, Jayanta Kumar Rakshit

Published in: Photonic Network Communications | Issue 3/2018

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Abstract

In the present communication, all-optical clocked J–K flip-flop is proposed and described using silicon waveguide-based optical micro-ring resonator (OMRR). We have used two optical pump signals representing the two operands (J and K) of the logical operation to modulate the OMRRs under low pump power condition. A theoretical model of the proposed J–K flip-flop and hence S–R and T flip-flop are developed using micro-ring resonator through pump–probe configuration. Numerical simulation results for clocked flip-flop circuits verifying the proposed method are given in this paper. We identified a combination of feasible OMRR radius and detuning through numerical simulation which allows analyzing the system performance of the scheme such as maximum amplitude difference between marks \((\hbox {AD}_{1,\mathrm{{max}}})\), between spaces \((\hbox {AD}_{0,\mathrm{{max}}})\) and between marks and spaces \((\hbox {AD}_{1/0,\mathrm{{max}}})\), which confirm the feasibility of the flip-flop design. A maximum buildup factor of 19.57 is achieved at an optimized coupling coefficient of 0.22.

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Title: Design of all-optical JK, SR and T flip-flops using micro-ring resonator-based optical switch
Authors: Gaurav Kumar Bharti
Jayanta Kumar Rakshit
Publication date: 15-01-2018
Publisher: Springer US
Published in: Photonic Network Communications / Issue 3/2018
Print ISSN: 1387-974X
Electronic ISSN: 1572-8188
DOI: https://doi.org/10.1007/s11107-017-0754-4

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