Keeping light tightly guided, over metre-long distances, in both nanoscale solid glass cores and hollow cores allows enhanced and highly reproducible control of linear and nonlinear interactions between light, acoustic vibrations and trapped particles. (C) 2010 Optical Society of Americ
Wavelength-scale periodic microstructuring dramatically alters the optical properties of materials. ...
Coherent optically-driven GHz acoustic waves, tightly guided in the micron-sized core of photonic cr...
Neste trabalho são investigadas técnicas para controlar o confinamento de fótons e fônons em fibras ...
Keeping light tightly guided, over metre-long distances, in both nanoscale solid glass cores and hol...
The microstructure in photonic crystal fibre permits low-loss guidance of light both in solid materi...
The microstructure in photonic crystal fibre permits low-loss guidance of light both in solid glass ...
Acoustic resonances trapped within the glass core (1 mu m diameter) of a photonic crystal fibre are ...
The interaction between light and microwave sound can be strongly enhanced by tight confinement with...
Ultrahigh frequency acoustic resonances (2 GHz) trapped within the glass core (1 mu m diameter) of a...
Micro/nano-structured and photonic crystal fibres have in recent years been used to enhance light-ma...
Through their unique properties - often offering orders of magnitude improvement over previous techn...
Interactions between light and hypersonic waves can be enhanced by tight field confinement, as shown...
Optically levitated micro- and nanoparticles offer an ideal playground for investigating photon-phon...
Photonic crystal fibers guide light by corralling it within a periodic array of microscopic air hole...
Optically levitated micro- and nanoparticles offer an ideal playground for investigating photon–phon...
Wavelength-scale periodic microstructuring dramatically alters the optical properties of materials. ...
Coherent optically-driven GHz acoustic waves, tightly guided in the micron-sized core of photonic cr...
Neste trabalho são investigadas técnicas para controlar o confinamento de fótons e fônons em fibras ...
Keeping light tightly guided, over metre-long distances, in both nanoscale solid glass cores and hol...
The microstructure in photonic crystal fibre permits low-loss guidance of light both in solid materi...
The microstructure in photonic crystal fibre permits low-loss guidance of light both in solid glass ...
Acoustic resonances trapped within the glass core (1 mu m diameter) of a photonic crystal fibre are ...
The interaction between light and microwave sound can be strongly enhanced by tight confinement with...
Ultrahigh frequency acoustic resonances (2 GHz) trapped within the glass core (1 mu m diameter) of a...
Micro/nano-structured and photonic crystal fibres have in recent years been used to enhance light-ma...
Through their unique properties - often offering orders of magnitude improvement over previous techn...
Interactions between light and hypersonic waves can be enhanced by tight field confinement, as shown...
Optically levitated micro- and nanoparticles offer an ideal playground for investigating photon-phon...
Photonic crystal fibers guide light by corralling it within a periodic array of microscopic air hole...
Optically levitated micro- and nanoparticles offer an ideal playground for investigating photon–phon...
Wavelength-scale periodic microstructuring dramatically alters the optical properties of materials. ...
Coherent optically-driven GHz acoustic waves, tightly guided in the micron-sized core of photonic cr...
Neste trabalho são investigadas técnicas para controlar o confinamento de fótons e fônons em fibras ...
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