L. A. Blanco scite author profile

The spontaneous emission of an excited atom surrounded by different materials is studied in the framework of a semiclassical approach, where the transition dipole moment acts as the source of the emission field. The emission in the presence of semiinfinite media, metallic nanorings, spheres, gratings, and other complex geometries is investigated. Strong emission enhancement effects are obtained in some of these geometries associated to the excitation of plasmons ͑e.g., in nanorings or spheres͒. Furthermore, the emission is shown to take place only along narrow angular distributions when the atom is located inside a low-index dielectric and near its planar surface, or when metallic nanogratings are employed at certain resonant wave lengths. In particular, axially symmetric gratings made of real silver metal are considered, and both emission rate enhancement and focused far-field emission are achieved simultaneously when the grating is decorated with further nanostructures.

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Tunneling Mechanism of Light Transmission through Metallic Films

Abajo

et al. 2005

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A mechanism of light transmission through metallic films is proposed, assisted by tunneling between resonating buried dielectric inclusions. This is illustrated by arrays of Si spheres embedded in Ag. Strong transmission peaks are observed near the Mie resonances of the spheres. The interaction among various planes of spheres and interference effects between these resonances and the surface plasmons of Ag lead to mixing and splitting of the resonances. Transmission is proved to be limited only by absorption. For small spheres, the effective dielectric constant of the resulting material can be tuned to values close to unity, and a method is proposed to turn the resulting materials invisible.

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Plasmon excitation in sets of nanoscale cylinders and spheres

2006

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Spontaneous emission enhancement near nanoparticles

Blanco

Abajo

2004

Journal of Quantitative Spectroscopy and Radiative Transfer

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L. A. Blanco

Spontaneous light emission in complex nanostructures

Tunneling Mechanism of Light Transmission through Metallic Films

Plasmon excitation in sets of nanoscale cylinders and spheres

Spontaneous emission enhancement near nanoparticles

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