The ability of structures called optical resonators to trap light is often limited by scattering of light off fabrication defects. A physical mechanism that suppresses this scattering has been reported that could lead to improved optical devices
Similar to the confinement of an electron in a potential well, photons can be spatially confined ins...
In 1982, Yablonovitch proposed a thermodynamic limit on light trapping within homogeneous semiconduc...
The ability to manipulate small particles of matter using the forces of light, optical trapping, for...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
International audienceDeformed optical resonators that support chaotically propagating modes have be...
The ability to manipulate small particles of matter using the forces of light, optical trapping, for...
We propose a new figure of merit to assess the performance of light trapping nanostructures for sola...
We show that the photonic confinement induced by a photonic crystal can be exploited to trap nanopar...
The dipole force, which avoids the closed cycle of pumping and spontaneous emission that renders las...
Past and slow light behaviors are the interesting aspects of light which can be useful for many fund...
Optical trapping describes the interaction between light and matter to manipulate micro-objects thro...
The phenomenon of light's momentum was first observed in the laboratory at the beginning of the twen...
The quality factor of a mechanical resonator is an important figure of merit for various sensing app...
Very high frequency oscillations of intense light fields interact with micron-size dielectric object...
Similar to the confinement of an electron in a potential well, photons can be spatially confined ins...
In 1982, Yablonovitch proposed a thermodynamic limit on light trapping within homogeneous semiconduc...
The ability to manipulate small particles of matter using the forces of light, optical trapping, for...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
Optical traps (tweezers) are beginning to be used with increasing efficacy in diverse studies in the...
International audienceDeformed optical resonators that support chaotically propagating modes have be...
The ability to manipulate small particles of matter using the forces of light, optical trapping, for...
We propose a new figure of merit to assess the performance of light trapping nanostructures for sola...
We show that the photonic confinement induced by a photonic crystal can be exploited to trap nanopar...
The dipole force, which avoids the closed cycle of pumping and spontaneous emission that renders las...
Past and slow light behaviors are the interesting aspects of light which can be useful for many fund...
Optical trapping describes the interaction between light and matter to manipulate micro-objects thro...
The phenomenon of light's momentum was first observed in the laboratory at the beginning of the twen...
The quality factor of a mechanical resonator is an important figure of merit for various sensing app...
Very high frequency oscillations of intense light fields interact with micron-size dielectric object...
Similar to the confinement of an electron in a potential well, photons can be spatially confined ins...
In 1982, Yablonovitch proposed a thermodynamic limit on light trapping within homogeneous semiconduc...
The ability to manipulate small particles of matter using the forces of light, optical trapping, for...
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