An ultra-compact all optical full adder based on nonlinear photonic crystal resonant cavities

In this paper we are going to propose and design an all optical full adder based on photonic crystal. For realizing the proposed structure we will use four nonlinear resonant cavities inside a two dimensional photonic crystal. Nonlinear resonant cavities will be created by replacing the ordinary rod...

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Published inSuperlattices and microstructures Vol. 113; pp. 359 - 365
Main Authors Cheraghi, F., Soroosh, M., Akbarizadeh, G.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2018
Subjects
Full adder
Nonlinear Kerr effect
Photonic band gap
Photonic crystal
Resonant cavity
Full adder
Nonlinear Kerr effect
Photonic band gap
Photonic crystal
Resonant cavity
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Abstract In this paper we are going to propose and design an all optical full adder based on photonic crystal. For realizing the proposed structure we will use four nonlinear resonant cavities inside a two dimensional photonic crystal. Nonlinear resonant cavities will be created by replacing the ordinary rods via defect rod made of nonlinear material such as doped glass. The simulation results show that the worst cases for logics 0 (the maximum normalized power in OFF state) and 1 (the minimum normalized power in ON state) are 3% and 53% for SUM port and they are 10% and 100% for CARRY port respectively. Also the maximum delay time for the proposed device is about 8 ps. •The proposed structure has very compact footprint compared with previously proposed full adders.•Delay time obtained to be about 8 ps so it's suitable for optical processing.•The light intensity required in input ports are lower than previously proposed structures.
AbstractList In this paper we are going to propose and design an all optical full adder based on photonic crystal. For realizing the proposed structure we will use four nonlinear resonant cavities inside a two dimensional photonic crystal. Nonlinear resonant cavities will be created by replacing the ordinary rods via defect rod made of nonlinear material such as doped glass. The simulation results show that the worst cases for logics 0 (the maximum normalized power in OFF state) and 1 (the minimum normalized power in ON state) are 3% and 53% for SUM port and they are 10% and 100% for CARRY port respectively. Also the maximum delay time for the proposed device is about 8 ps. •The proposed structure has very compact footprint compared with previously proposed full adders.•Delay time obtained to be about 8 ps so it's suitable for optical processing.•The light intensity required in input ports are lower than previously proposed structures.
Author Cheraghi, F.
Soroosh, M.
Akbarizadeh, G.
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  email: m.soroosh@scu.ac.ir
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  surname: Akbarizadeh
  fullname: Akbarizadeh, G.
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Nonlinear Kerr effect
Photonic band gap
Photonic crystal
Resonant cavity
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Snippet In this paper we are going to propose and design an all optical full adder based on photonic crystal. For realizing the proposed structure we will use four...
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StartPage 359
SubjectTerms Full adder
Nonlinear Kerr effect
Photonic band gap
Photonic crystal
Resonant cavity
Title An ultra-compact all optical full adder based on nonlinear photonic crystal resonant cavities
URI https://dx.doi.org/10.1016/j.spmi.2017.11.017
Volume 113
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