All Optical High Speed Multiplexer Circuit for Verification of Proposed Gates
-
Pawan Chanalia
,
Shaina
Abstract
An all optical communication is fast and reliable for next generation information carrying systems. For successful operation of fast data over flexible transmission line is only possible by all optical multiplexer and can serve for network. A 60 Gbps all optical multiplexer using cheap components has been realized and also tested on different speeds of input data streams. For integral and flexible multiplexer, optical semiconductor-based MZI switch taken into consideration. MZI-SOA is used to generate two logical gates outputs such as (AND)(XOR) gate. Multiplexer working is based on SOA nonlinearity properties and optical coupler. XOR logic gate contingent on cross-phase modulation in amplifier and logic AND for four-wave mixing is obtained from cross port and bar port respectively. Simulation is performed and multiplexer is tested for different launched power in tree architecture. System performance indicates that it can work for high speed (60 Gbps) and different data entities.
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© 2018 Walter de Gruyter GmbH, Berlin/Boston
Articles in the same Issue
- Frontmatter
- A Review on Hybrid Optical Amplifiers
- Multi-stage Mirror-Based Planar Structure for Wavelength Division Demultiplexing
- Low Loss and High-Quality Factor Optical Filter Using Photonic Crystal-Based Resonant Cavity
- All Optical High Speed Multiplexer Circuit for Verification of Proposed Gates
- Structural and Optical Properties of Nanophotonic LiNbO3 under Stirrer Time Effect
- Passively Q-switched Erbium-Doped Fiber Laser based on Graphene Oxide as Saturable Absorber
- A Method of Optical Grooming Based on Dynamic Multicast Capable of Adaptive Splitting Under Differential Delay Constraint
- A Novel Spectrum Assignment Scheme for Time-Varying Traffic in Flexgrid Optical Networks
- A QoS Control Scheme based on Software Defined Fiber-Wireless Access Network for Survivability
- A Performance Analysis of Free-Space Optical Link at 1,550 nm, 850 nm, 650 nm and 532 nm Optical Wavelengths
- Performance Investigation of Different Modulation Schemes in RoF Systems under the Influence of Self Phase Modulation
- Capacity of Optical Wireless System over Log-Normal Channels with Spatial Diversity in Presence of Atmospheric Losses
- A New Construction of Optical Zero-Correlation Zone Codes
Articles in the same Issue
- Frontmatter
- A Review on Hybrid Optical Amplifiers
- Multi-stage Mirror-Based Planar Structure for Wavelength Division Demultiplexing
- Low Loss and High-Quality Factor Optical Filter Using Photonic Crystal-Based Resonant Cavity
- All Optical High Speed Multiplexer Circuit for Verification of Proposed Gates
- Structural and Optical Properties of Nanophotonic LiNbO3 under Stirrer Time Effect
- Passively Q-switched Erbium-Doped Fiber Laser based on Graphene Oxide as Saturable Absorber
- A Method of Optical Grooming Based on Dynamic Multicast Capable of Adaptive Splitting Under Differential Delay Constraint
- A Novel Spectrum Assignment Scheme for Time-Varying Traffic in Flexgrid Optical Networks
- A QoS Control Scheme based on Software Defined Fiber-Wireless Access Network for Survivability
- A Performance Analysis of Free-Space Optical Link at 1,550 nm, 850 nm, 650 nm and 532 nm Optical Wavelengths
- Performance Investigation of Different Modulation Schemes in RoF Systems under the Influence of Self Phase Modulation
- Capacity of Optical Wireless System over Log-Normal Channels with Spatial Diversity in Presence of Atmospheric Losses
- A New Construction of Optical Zero-Correlation Zone Codes
