Nanophotonics: Devices, Circuits, and Systems

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Features

  • Explores the behavior of light(light pulse) within the micro and nano scale device(ring resonator), which can be integrated to form various devices
  • Discusses on the huge potential of small scale device, especially, with light signal processing is needed
  • Presents a device (nano device) design and simulation which can be useful for practical in near future

Summary

This book investigates the behavior of light (light pulse) within the micro- and nano-scale device (ring resonator), which can be integrated to form the device, circuits, and systems that can be used for atom/molecule trapping and transportation, optical transistor, fast calculation devices (optical gate), nanoscale communication and networks, and energy storage, etc. The large demand of small-scale device, especially, with light signal processing is needed. This book discusses device (nano device) design and simulation, which can be useful for practice in the near future.

Table of Contents

Nanophotonics
Introduction
Basic Concept of Nanophotonics
Near Field Optics
Quantum Confinement
Photonic Crystal
Finite Difference Time Domain (FDTD) Method
Light Pulse in Ring Resonator

Optical Cryptography
Introduction
Model of an Optical Cryptography
Key Suppression and Recovery
Optical Cryptography System
Conclusion

All-Optical Adder/Subtractor
Introduction
Operating Principle
Simultaneous Half Adder/ Subtractor
Simultaneous Full Adder/Subtractor
Conclusion

Photonic Transistor Manipulation
Introduction
Operating Principle
Photonic Transistor Characteristics
Molecular Transistor
Conclusion

Nanoscale Sensing Device Design
Introduction
Operating Principle
Nanoscale Sensor Operation
Conclusion

Solar Energy Conversion Manipulation
Introduction
Nano-waveguide System
White Light Generation Manipulation
Conclusion

Drug Delivery Manipulation
Introduction
Microscopic Volume Trapping Force Generation
Microscopic Volume Transportation and Drug Delivery
Conclusion

Molecular Buffer
Introduction
Theoretical Background
Molecular Buffer
Conclusion

Nano-battery Manipulation
Introduction
Theoretical Background
Nano-batery
Conclusion

Blood Cleaner on-Chip Design
Introduction
Theoretical Background
Kidney on-Chip Manipulation
Conclusion

All-optical Logic XOR/XNOR Gates
Introduction
Dark-Bright Soliton Conversion Mechanism
Optical XOR/XNOR Logic Gate Operation
Operation Principle of Simultaneous All-optical Logic Gates
Conclusion

Laser Gun Design
Introduction
High Power Laser Generation
Laser Gun Mechanism
Conclusion

Author Bio(s)

Preecha P. Yupapin received his PhD in electrical engineering from City University of London in 1993. He was a postdoctoral research fellow in 1994 under the European Community research project. He has been working with the Department of Physics, Faculty of Science, King Mongkut’s Institute of Technology Ladkrabang (KMITL), Bangkok, since 1985. Prof. Yupapin has authored or coauthored more than 530 research papers and 31 chapters and books. His research interests are in nanophysics, nanoelectronics, nanocommunication and networks, molecular electronics, nanomedicine and beauty, nanoenergy, quantum information, and human engineering.

Keerayoot Srinuanjan received a bachelor’s in science (physics) from Khon Kaen University, Khon Kaen, Thailand, in 1996 and a master’s in science (applied physics) from KMITL, Bangkok, in 2004. He is a lecturer of applied physics at the Department of Applied Physics, Faculty of Science, KMITL. His research topics are fiber optics, nonlinear optics, and quantum optics.

Surachart Kamoldilok received a bachelor’s in science (physics) from Ramkhamhaeng University, Bangkok, in 1991 and a master’s in science (applied physics) from KMITL, Bangkok, in 2001. He is a lecturer of applied physics at the Department of Applied Physics, Faculty of Science, KMITL. His research topics are quantum optics, nonlinear optics, and nano-optics devices.

Editorial Reviews

"This book represents an extensive collection of the most updated studies about nanophotonics and its applications. This is an interesting work and an excellent reference for inspiring scientists and students, especially for those seeking inspiration from the most fascinating discoveries in the field of nanophotonics."
—Prof. Asghar Asgari, The University of Western Australia