[内容简介]
Microring/nanoring resonator is an interesting device that has been widely studied and investigated by researchers from a variety of specializations. This book begins with the basic background of linear and nonlinear ring resonators. A novel design of nano device known as a PANDA ring resonator is proposed. The use of the device in the form of a PANDA in applications such as nanoelectronics, measurement, communication, sensors, optical and quantum computing, drug delivery, hybrid transistor and a new concept of electron-hole pair is discussed in detail.
[目录]
Linear and Nonlinear Ring Resonators
Introduction
A Linear Microring Resonator
A Linear Add/Drop Filter
Vernier Effect
All-Pass and Add/Drop Filter
A Nonlinear Microring Resonator
A Nonlinear Add/Drop Filter
Conclusion
References
A PANDA Ring Resonator
Introduction
Theory and Modeling
Dynamic Pulse Propagation
Symmetry and Asymmetry PANDA Ring Resonators
Random Binary Code Generation
Binary Code Suppression and Recovery
Conclusion
References
Dark-Bright Soliton Conversion
Introduction
Operating Principle
Soliton Nonlinear Behaviors
Optical Soliton
Dark-Bright Soliton Conversion
Dark-Bright Soliton Conversion in Add/Drop Filter
Soliton Collision Management in a Microring Resonator
Soliton Collision Management
Conclusion
References
Dynamic Optical Tweezers
Introduction
The Add/Drop Optical Filter
Storage Trapping Tool
Dynamic Potential Well Generation
Dynamic Optical Tweezers via a Wavelength Router
Trapping Forces
Trapping Stability
Trapping and Transportation Mechanism
Atom/Molecule Transmission and Transportation via Wavelength Router
Conclusion
References
Hybrid Interferometer
Introduction
Theoretical Background
Hybrid Interferometer
Conclusions
References
Hybrid Transceiver
Introduction
Theory
Hybrid Transceiver and Repeater
Conclusion
References
Nanocommunication
Introduction
Multi Variable Quantum Tweezers Generation and Modulation
Molecular Transporter Generation for Quantum-Molecular Transmission
Conclusion
References
Nanosensors
Introduction
Network Sensors using a PANDA Ring Resonator Type
Self-calibration in a Fiber Optic Sensing System
Conclusion
References
Optical and Quantum Computing
Introduction
Quantum Controlled-NOT (CNOT) Gate
Quantum SWAP Gate
All-optical Logic Gate
Dark-Bright Soliton Conversion Mechanism
Optical XOR/XNOR Logic Gate Operation
Operation Principle of Simultaneous All-optical Logic Gates
OOK Generation
Conclusion
References
Drug Delivery
Introduction
Optical Vortex Generation
Drug Trapping and Delivery
Conclusion
References
Hybrid Transistor
Introduction
All-Optical Photonic Transistor
Single-Photon Transistor
Single-Atom Transistor
Single-Electron Transistor
Single-Molecule Transistor
Photonic Transistor using PANDA Ring
Conclusion
References
Electron-Hole Pair Manipulation
Introduction
Single Electron-Hole Pair Generation
Multi Electron-Hole Pair Generation
Conclusion
References
Index
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