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E-grāmata: Nanophotonic Fabrication: Self-Assembly and Deposition Techniques

  • Formāts: PDF+DRM
  • Sērija : Nano-Optics and Nanophotonics
  • Izdošanas datums: 12-Apr-2012
  • Izdevniecība: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Valoda: eng
  • ISBN-13: 9783642241727
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Nanophotonic Fabrication: Self-Assembly and Deposition TechniquesPalielināt
  • Formāts: PDF+DRM
  • Sērija : Nano-Optics and Nanophotonics
  • Izdošanas datums: 12-Apr-2012
  • Izdevniecība: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Valoda: eng
  • ISBN-13: 9783642241727
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In this book, the authors present a self-assembly method for size- and position-controlled ultra-long nanodot chains using a novel effect of near-field optical desorption, and also describe a novel deposition and etching scheme under nonresonant conditions.

Nanophotonics, a novel optical technology, utilizes the local interaction between nanometric particles via optical near fields. The optical near fields are the elementary surface excitations on nanometric particles, i.e. dressed photons that carry material energy. Of the variety of qualitative innovations in optical technology realized by nanophotonics, this books focuses on fabrication. To fabricate nano-scale photonic devices with nanometer-scale controllability in size and position, we developed a self-assembly method for size- and position-controlled ultra-long nanodot chains using a novel effect of near-field optical desorption. A novel deposition and etching scheme under nonresonant conditions is also demonstrated and its origin is reviewed.

Recenzijas

From the reviews:

This book focuses on nanophotonic fabrication. The book is an introduction for readers, who will be interested in various functions that differ depending on the device. (Lisa Tongning Li, Optics & Photonics News, November, 2012)

1 Introduction
1(4)
1.1 Utilization of the Optical Near-Field
1(4)
References
4(1)
2 Controlling the Size and Position in Nanoscale
5(28)
2.1 Introduction
5(1)
2.2 Fabrication of Nano-structure Using Optical Near-Field
5(28)
2.2.1 Photo Chemical Vapor Deposition
5(7)
2.2.2 Near-Field Optical Chemical Vapor Deposition
12(7)
2.2.3 Regulating the Size and Position of Deposited Nanoparticles
19(7)
2.2.4 Observation of Size-Dependent Resonance of Near-Field Coupling Between Deposited Zn Dot and Probe Apex During NFO-CVD
26(3)
References
29(4)
3 Self-assembled Size Regulation and Its Alignment
33(34)
3.1 Introduction
33(1)
3.2 Size-, Position-, and Separation-Controlled One-Dimensional Alignment of Nanoparticles Using an Optical Near Field
34(7)
3.3 Self-assembly of Size- and Position-Controlled Ultra-long
41(4)
3.4 High-Resolution Capability of Optical Near-Field Imprint Lithography
45(5)
3.5 Self-assembly of ZnO QDs
50(6)
3.6 Self-assembly Method of Linearly Aligning ZnO Quantum Dots
56(11)
References
63(4)
4 Phonon-Assisted Process
67(50)
4.1 Dressed-Photon and Phonon
67(1)
4.2 Angstrom Scale Flattening Process
68(21)
4.2.1 Phonon-Assisted Optical Near-Field Etching
69(3)
4.2.2 In situ Real-Time Monitoring of Changes in the Surface Roughness During Phonon-Assisted Optical Near-Field Etching
72(7)
4.2.3 Self-organized Near-Field Etching of the Sidewalls of Glass Corrugations
79(6)
4.2.4 Repairing Nanoscale Scratched Grooves on Polycrystalline Ceramics Using Optical Near-Field Assisted Sputtering
85(4)
4.3 Site Selective Patterning
89(15)
4.3.1 Production of Size-Controlled Si Nanocrystals Using Self-organized Optical Near-Field Chemical Etching
89(5)
4.3.2 Site-Selective Deposition of Gold Nanoparticles Using Non-adiabatic Reaction Induced by Optical Near Fields
94(10)
4.4 Increased Spatial Homogeneity
104(3)
4.5 Improving the Device Efficiency Using the Phonon-Assisted Process
107(10)
References
114(3)
5 Some Remarks and Outlook
117(4)
5.1 Remarks
117(2)
5.1.1 Photolithography
117(1)
5.1.2 Near-Field Etching
118(1)
5.1.3 Light Emitting Devices
118(1)
5.1.4 Nanophotonic Energy Conversion
118(1)
5.2 Summary
119(2)
References
120(1)
Index 121
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