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Off-shell applications in nanophotonics : dressed photon science and technology /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam :
Elsevier,
2021.
|
| Colección: | Nanophotonics
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro
- Off-Shell Applications in Nanophotonics: Dressed Photon Science and Technology
- Copyright
- Dedication
- Contents
- Author biography
- Foreword
- Preface
- Acknowledgments
- Introduction
- Chapter 1: History, current developments, and problems
- 1.1. Past and present
- 1.2. A link to novel theories
- 1.2.1. Principles of creation and measurement of the dressed photon
- 1.2.2. Performance of fiber probes
- 1.2.3. Using nano-particles
- 1.2.4. Requirements for novel theories
- 1.3. Strategies for novel theories
- 1.3.1. Problems to be solved
- 1.3.2. Expected theoretical methods
- References
- Chapter 2: Nature of the dressed photon
- 2.1. Creation, annihilation, and localization of the dressed photon
- 2.1.1. Creation and annihilation of the dressed photon
- 2.1.2. Spatial localization of the dressed photon
- 2.2. Spatial evolution of DP energy transfer
- 2.2.1. Size-dependent resonance
- 2.2.2. Autonomy
- 2.2.3. Hierarchy
- 2.3. Temporal evolutions of DP energy transfer
- 2.4. Energy disturbance by measurement
- References
- Chapter 3: Nano-optical devices based on the nature of the dressed photon
- 3.1. Logic gates
- 3.2. Nano-optical condenser
- 3.3. Energy transmitter
- 3.4. Optical buffer memory
- 3.5. Signal converters and pulse generator
- 3.6. Superior performance levels and unique functionality of DP devices
- 3.6.1. Single-photon operation
- 3.6.2. Low-energy consumption
- References
- Chapter 4: Nano-fabrication technology based on the nature of the dressed photon
- 4.1. Technology using a fiber probe or an aperture
- 4.2. Technology not using a fiber probe or an aperture
- 4.2.1. Smoothing by etching
- 4.2.2. Smoothing by deposition
- References
- Chapter 5: Optical energy conversion based on the nature of the dressed photon
- 5.1. Conversion from optical to optical energy.
- 5.1.1. Optical energy downward conversion
- 5.1.2. Optical energy upward conversion
- 5.2. Conversion from optical to electrical energy
- 5.2.1. Fabrication
- 5.2.2. Operation
- References
- Chapter 6: Light-emitting diodes, lasers, and relevant devices based on the nature of the dressed photon
- 6.1. Si-LEDs
- 6.2. Si lasers
- 6.2.1. Single-mode lasers
- 6.2.2. High-power lasers
- 6.2.3. Comparison with other types of lasers
- 6.3. Infrared Si-PDs with optical amplification
- 6.4. Polarization rotators
- References
- Chapter 7: Embarking on theoretical studies for off-shell science
- 7.1. Augmented Maxwell's theory
- 7.1.1. Reasons why the on-shell scientific method does not meet the requirement
- 7.1.2. Critical review of Maxwell's equations
- 7.1.3. Description of DPs by the off-shell scientific method
- 7.2. Theories having a mathematical basis
- 7.2.1. Quantum probability theory
- 7.2.2. Other basic theories having a mathematical basis
- References
- Appendix A: Present status of numerical simulation techniques and their problems
- A.1. Nano-droplets
- A.2. Photovoltaic devices having a silver electrode with a unique surface morphology
- A.3. Light-emitting diodes using silicon crystals
- A.4. Problems in conventional numerical simulations
- References
- Appendix B: Supplementary explanations of the CD field
- References
- Suggested reading
- Textbooks on related subjects
- Quantum optics
- Quantum electrodynamics
- Quantum field theory
- Quantum theory of solids
- Quantum measurement theory
- Quantum probability theory
- Quantum walk
- Near field optics
- Nanophotonics
- Dressed photon science and technology
- References to the original work
- Monographs
- Handbooks
- Preprint depository
- Index.