UID:
almahu_9949199309702882
Umfang:
XV, 324 p.
,
online resource.
Ausgabe:
1st ed. 2002.
ISBN:
9783540452737
Serie:
Springer Series in Optical Sciences, 84
Inhalt:
When a photon meets a nanostructure, many interesting phenomena occur. This book aims at developing the theories and the applications of photon interactions with nanostructures. The contributors were all participants in the well-known Japanese national research project, "Near-Field Nano-Optics", which ran from 1997 to 2000. The book covers a wide range of disciplines in nano-optics, including the theoretical development of imaging-contrast mechanisms as a result of photon and nanomatter interactions, and discussions on different near-field nanoprobes. Applications of nano-optics to sensing, imaging, analysis, and the fabrication of nanostructures, such as molecules and quantum devices, are also discussed, with a collection of experimental examples.
Anmerkung:
1 Quantum Theory for Near-Field Nano-Optics -- 1.1 Resonant Near-Field Optics -- 1.2 Quantization of Evanescent Waves and Optical Near-Rield Interaction of Atoms -- 1.3 Quantum Mechanical Aspects of Optical Near-Field Problems -- 2 Electromagnetism Theory and Analysis for Near-Field Nano-Optics -- 2.1 Finite-Difference Time-Domain Analysis of a Near-Field Microscope System -- 2.2 Reconstruction of an Optical Image from NSOM Data -- 2.3 Radiation Force Exerted near a Nano-Aperture -- References -- 3 High-Resolution and High-Throughput Probes -- 3.1 Excitation of a HE-Plasmon Mode -- 3.2 Multiple-Tapered Probes -- References -- 4 Apertureless Near-Field Probes -- 4.1 Local Plasmon in a Metallic Nanoparticle -- 4.2 Laser-Trapping of a Metallic Particle for a Near-Field Microscope Probe -- 4.3 Near-Field Enhancement at a Metallic Probe -- 4.4 Scattering Near-Field Optical Microscope with a Microcavity -- References -- 5 Integrated and Functional Probes -- 5.1 Micromachined Probes -- 5.2 Light Detection from Force -- 5.3 High Efficiency Light Transmission Through a Nano-Waveguide -- References -- 6 High-Density Optical Memory and Ultrafine Photofabrication -- 6.1 Photochromic Memory Media -- 6.2 Near-Field Optical Memory -- 6.3 Future Prospects for Near-Field Optical Memory -- 6.4 Nanofabrication: Chemical Vapor Deposition -- 6.5 Nanofabrication: Organic Film -- References -- 7 Near-Field Imaging of Molecules and Thin Films -- 7.1 Near-Field Imaging of Molecules and Thin Films -- 7.2 Two-Dimensional Morphology of Ultrathin Polymer Films -- 7.3 Observation of Polyethylene (PE) Crystals -- 7.4 Preparation of Micrometer-Sized Chromophore Aggregates -- 7.5 Application to Electrochemical Research -- 7.6 Second-Harmonic Generation in Near-Field Optics -- References -- 8 Near-Field Microscopy for Biomolecular Systems -- 8.1 Near-Field Imaging of Human Chromosomes and Single DNA Molecules -- 8.2 Imaging of Biological Molecules -- 8.3 Cell and Cellular Functions -- References -- 9 Near-Field Imaging of Quantum Devices and Photonic Structures -- 9.1 Spectroscopy of Quantum Devices and Structures -- 9.2 Observation of Polysilane by Near-Field Scanning Optical Microscope in the Ultraviolet (UV) Region -- 9.3 Near-Field Photon Tunneling -- References -- 10 Other Imaging and Applications -- 10.1 Birefringent Imaging with an Illumination-Mode Near-Field Scanning Optical Microscope -- 10.2 Plain-Type Low-Temperature NSOM System -- 10.3 STM-Induced Luminescence -- 10.4 Energy Modulation of Electrons with Evanescent Waves -- 10.5 Manipulation of Particles by Photon Force -- References.
In:
Springer Nature eBook
Weitere Ausg.:
Printed edition: ISBN 9783642536342
Weitere Ausg.:
Printed edition: ISBN 9783540418290
Weitere Ausg.:
Printed edition: ISBN 9783642075278
Sprache:
Englisch
DOI:
10.1007/978-3-540-45273-7
URL:
https://doi.org/10.1007/978-3-540-45273-7
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