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Progress in nanophotonics 7 / edited by Takashi Yatsui.
Format
Book
Language
English
Published/Created
Cham, Switzerland : Springer, [2022]
©2022
Description
1 online resource (187 pages)
Details
Subject(s)
Nanophotonics
[Browse]
Editor
Yatsui, Takashi
[Browse]
Series
Topics in Applied Physics
[More in this series]
Topics in Applied Physics ; v.147
[More in this series]
Bibliographic references
Includes bibliographical references and index.
Source of description
Description based on print version record.
Contents
Intro
Foreword
Preface to Volume VII
Contents
Contributors
1 First-Principles Calculation of Photoexcited Electron Dynamics of Nanostructures
1.1 Introduction
1.2 Theory About Photoexcitation of Nanoparticle
1.3 Simulation of Photoexcited Electron Dynamics
1.4 Gold Nanocluster
1.5 Gold-Thiolate Nanocluster
1.6 Near-Field Excitation of Silicon
1.7 Silver Nanocluster/Titania Heterostructure
1.8 Summary
1.9 Appendix
References
2 Nanomaterials for Localized Surface Plasmon Resonance-Related Optical Functionalities
2.1 Localized Surface Plasmon Resonance
2.1.1 Shape-Controlled Plasmonic Nanomaterials
2.1.2 Assembly-Controlled Plasmonic Nanomaterials
2.2 Various Optical Functionalities Related to Localized Surface Plasmon Resonance
2.2.1 Surface Enhanced Raman Scattering Substrates
2.2.2 Polarizers
2.2.3 Hologram Memory Media
2.2.4 Solar Cells
2.2.5 Photocatalysts
2.3 Summary and Outlook
3 Nanochemistry by Thermoplasmonic Effects
3.1 Introduction
3.2 Thermoplasmonics and Temperature
3.2.1 Heat Power Generated in NPs
3.2.2 Temperature Generation in NPs
3.2.3 Collective Effects
3.2.4 Pulsed Illumination
3.3 Thermoplasmonics and Chemistry
3.3.1 Driven Chemical Reaction and Catalysis
3.3.2 Polymer Chemistry
3.3.3 Curing Inorganic Materials Prepared via Sol-Gel Chemistry
3.4 Conclusion
4 Hybrid Integration of Quantum-Dot Non-classical Light Sources on Si
4.1 Introduction
4.2 Device Design for Near-Unity Coupling of QD Emission into Si Photonic Waveguide
4.3 Hybrid Integration of QD SPSs on Si
4.3.1 Transfer Printing
4.3.2 Procedure of Integrating QD SPS on Si CMOS Chip Based on TP
4.3.3 Evaluation of Integrated QD SPS on CMOS Si Waveguide.
4.4 In-Situ Wavelength Control of QD Single-Photon Source on Si CMOS Chip
4.4.1 Device Structure for On-Chip Spectral Tuning of QD SPS
4.4.2 Fabrication of Investigated Device Structure
4.4.3 Optical Characterization of the Fabricated Device
4.4.4 Spectral Matching Between Two Dissimilar Integrated QD Sources
4.5 Summary
5 Hybrid Quantum Nanophotonics-Interfacing Color Center in Nanodiamonds with Si3N4-Photonics
5.1 Introduction
5.2 Potential Pathways Towards Hybrid Quantum Photonics
5.2.1 ``Structure to Emitter'' Approach
5.2.2 ``Emitter to Structure'' Approach
5.3 Nanophotonic Device Design of Si3N4-Photonics Towards Optimal Hybrid Integration
5.3.1 Single-Mode Planar Optical Waveguide
5.3.2 Apodized Grating Coupler
5.3.3 Mach-Zehnder Interferometer
5.3.4 Mach-Zehnder Interferometer Thermo-Optical Tunable Filter
5.3.5 Cascaded Mach-Zehnder Interferometer as Tunable Filter on Chip
5.3.6 Photonic Crystal Cavity
5.3.7 Freestanding, Cross-Bar Photonic Crystal Cavities
5.4 Color Center in Nanodiamonds
5.5 Quantum-Postprocessing
5.6 Hybrid Quantum Devices Based on Si3N4-Photonics Post-processed with Color Center in Nanodiamonds
5.6.1 Full Characterization of a Cross-Bar PhC Cavity for an Evanescently Coupled Emitter
5.6.2 Hybrid Quantum Nanophotonics Established by Evanescent Optical Coupling
5.6.3 Hybrid Quantum Nanophotonics Established by Embedded Optical Coupling
5.7 Summary
Index.
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ISBN
9783031165184 ((electronic bk.))
OCLC
1351750658
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Princeton University Library aims to describe library materials in a manner that is respectful to the individuals and communities who create, use, and are represented in the collections we manage.
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