Titlebook: Nano-Optics; Satoshi Kawata,Motoichi Ohtsu,Masahiro Irie Book 2002 Springer-Verlag Berlin Heidelberg 2002 Apertur.Metall.Near-field optics

丑惡

Glossy

High-Density Optical Memory and Ultrafine Photofabrication, Therefore, the mark size cannot be reduced to less than the wavelength of light. In near-field optical recording, in contrast, the size depends only on the diameter of the probe tip aperture. Therefore, the recording density can be increased at will, in principle, if a small aperture tip is available.

Asymptomatic

Near-Field Microscopy for Biomolecular Systems,eld optical phenomena in biological applications; one is a scanning near-field optical microscope (SNOM) and the other is a total internal reflection fluorescence microscope. Technical details of these near-field optical microscopes are mentioned elsewhere (see related chapters in this book).

Vertebra

支架

Acquired

amputation

High-Resolution and High-Throughput Probes,optical fiber to a very small apex. By employing the scanning technique already established in a scanning tunneling microscope (STM) and an atomic force microscope (AFM), the antenna at the apex of a sharpened fiber works as a probe on a sample surface under precise distance control.

Tartar

Apertureless Near-Field Probes,a nano-metric scale as the boundary conditions of the electromagnetic field vary on a nanometric-scale while scanning the tip or sample of a fine structure with nanometric resolution. Apertureless probes have the following advantages compared to probes with small apertures:

maintenance

Near-Field Imaging of Molecules and Thin Films,istry and materials science. This work has been mainly carried out and developed in this project. In the first section, we describe some research into SNOM itself for studies of a variety of chemistries and materials.

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