Chaotic Laser “Broadcast-Star” Synchronization Network and Its Application in Logic Gates
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Yan Sen Lin
Abstract
A novel network of “broadcast-star” constituted by a few of injection semiconductor laser cells and its synchronization in chaos are presented to apply in logic gates. Chaotic “broadcast-star” synchronization network is achieved in numerical simulation, where a broadcast using an injected laser drives three response systems with three injected lasers as three “stars” to achieve synchronization between the broadcast and stars while the “stars” obtain synchronization between themselves. The synchronization network model and equation are demonstrated. And logic controlling principle and equation are deduced. We create theoretically the constructions of fundamental gates based on the synchronization network in the “stars” and define their computational principle. Logic gate cell or logic computation can be implemented via controlling logic input and output to the system to synchronize or desynchronize appropriately the chaotic states of twin stars. We present and emulate a lot of all-optical XNOR, NOR, NOT, optoelectronic and combinational optoelectronic logic gates via the optical or optoelectronic modulation while we introduce these logic computational methods. Finally, we analyzed effects of resynchronization and desynchronization on logic detection in a practical implementation of the system. Results show the feasibility of the method.
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© 2019 Walter de Gruyter GmbH, Berlin/Boston
Articles in the same Issue
- 10.1515/joc-2019-frontmatter1
- Devices
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- All-Optical Logic Gates and Boolean Expressions in a Photonic Mach–Zehnder Interferometer
- Design and Simulation of Optical 4-Channel Demultiplexer Using Photonic Crystals
- Excellent Quality Factor Ultra-Compact Optical Communication Filter on Ring-Shaped Cavity
- Modified Periodic Encoder for Increasing Pulse Height in PON Monitoring System
- Laser
- Investigation on Chirping induced performance degradation in Single Mode Directly modulated 1.55um DFB laser
- Networks
- Chaotic Laser “Broadcast-Star” Synchronization Network and Its Application in Logic Gates
- Comparative Analysis of Various Wavelength Division Multiplexed PON Standards
- Comprehensive Polling and Scheduling Mechanism for Long Reach Gigabit Passive Optical Network
- Cost Efficient 4 × 2.5 Gb/s Transparent WDM Ring Network using DML and MetroCor Fiber for Long Reach Applications
- Effect of Channel Spacing on the Design of Mixed Line Rate Optical Wavelength Division Multiplexed Networks
- Systems
- Performance Evaluation of Sub-carrier Multiplexed SAC-OCDMA System Using Optimal Modulation Index
- Performance Investigation of OTDM Link at 10*4 Gbps and Link Range of 348 km Using NRZ and RZ Schemes
Articles in the same Issue
- 10.1515/joc-2019-frontmatter1
- Devices
- A Comparative Analysis of Dual-Order Bidirectional Pumping Schemes in Optical Fiber Raman Amplification
- All-Optical Logic Gates and Boolean Expressions in a Photonic Mach–Zehnder Interferometer
- Design and Simulation of Optical 4-Channel Demultiplexer Using Photonic Crystals
- Excellent Quality Factor Ultra-Compact Optical Communication Filter on Ring-Shaped Cavity
- Modified Periodic Encoder for Increasing Pulse Height in PON Monitoring System
- Laser
- Investigation on Chirping induced performance degradation in Single Mode Directly modulated 1.55um DFB laser
- Networks
- Chaotic Laser “Broadcast-Star” Synchronization Network and Its Application in Logic Gates
- Comparative Analysis of Various Wavelength Division Multiplexed PON Standards
- Comprehensive Polling and Scheduling Mechanism for Long Reach Gigabit Passive Optical Network
- Cost Efficient 4 × 2.5 Gb/s Transparent WDM Ring Network using DML and MetroCor Fiber for Long Reach Applications
- Effect of Channel Spacing on the Design of Mixed Line Rate Optical Wavelength Division Multiplexed Networks
- Systems
- Performance Evaluation of Sub-carrier Multiplexed SAC-OCDMA System Using Optimal Modulation Index
- Performance Investigation of OTDM Link at 10*4 Gbps and Link Range of 348 km Using NRZ and RZ Schemes
