Titlebook: Handbook of Nano-Optics and Nanophotonics; Motoichi Ohtsu Reference work 2013 Springer-Verlag Berlin Heidelberg 2013 advanced communicatio

Isolate

Optical Near-Field Interactions and Yukawa Potentialhe projection operator method, effective interactions between nanometric subsystems, that is, optical near-field interactions mediated by massive virtual photons, are derived from a microscopic multipolar Hamiltonian. It is shown that the major part of the effective interaction exerted is the Yukawa

Bumble

無(wú)關(guān)緊要

Theory and Principles of Operation of Nanophotonic Functional Devicesect, can be used for signal transfer and control. In this chapter, optical near-field coupling is formulated in detail by using the second quantization, and then, switching, logic, and some typical operations are discussed theoretically and numerically as examples of nanophotonic functional devices

Offstage

持續(xù)

Near-Field Optical Fiber Probes and the Applications Iical microscopy in infrared and visible wavelength regions. However, it is difficult to employ such commercial probes for near-ultraviolet applications because the GeO.-doped silica fiber probe has the strong guiding loss based on the Rayleigh scattering. Furthermore, the GeO.-doped core, under the

CLAMP

Near-Field Optical Fiber Probes and the Applications IIg a fiber probe with a subwavelength aperture [1]. In attempts to improve performance in spatially resolved spectroscopy, a serious problem of the fiber probe is its low throughput (in the case of illumination-modeoperation, the throughput is defined as the ratio of the output light power at the ape

GRACE

evince

止痛藥

Optical Interaction of Light with Semiconductor Quantum-Confined States at the Nanoscaleles of local density of states and exciton wavefunctions confined in quantum dots are visualized. The fundamental aspects of localized and delocalized electrons in interface and alloy disorder systems are also discussed.

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