We demonstrate a novel form of induced transparency and associated slow light due to thermo-optic effect. The phenomenon provides group delay as high as 0.5 µs in a silicon photonic crystal cavity at room temperature
In present study, the effect of different defect layer refractive indices and thicknesses on group v...
The scanning delay line is a key component of time-domain optical coherence tomography systems. It h...
We comprehensively simulate and experimentally demonstrate a novel approach to generate tunable elec...
Controlling the optical response of a medium through suitably tuned coherent electromagnetic fields ...
We demonstrate temporal group delays in coherently coupled high- Q multicavity photonic crystals, in...
We demonstrate electromagnetically induced transparency and slow light in an optomechanical cavity, ...
Nowadays, information technology has been deeply integrated in our daily life. However, within its r...
We experimentally investigate the slow light enhancement of nonlinear effects such as self-phase mod...
We demonstrate tunable temporal delays in coherently-coupled multi-cavity photonic crystals, in anal...
Tunable on-chip optical delay has long been a key target for the research community, as it is the en...
Paradoxically, slow light promises to increase the speed of telecommunications in novel photonic str...
We present a summary of our recent experiments showing how various nonlinear phenomena are enhanced ...
We discovered that a silicon-on-insulator photonic crystal waveguide whose lattice is shifted along ...
The possibility to engineer the group velocity (vg) of light has attracted much attention in the las...
Slow light with a markedly low group velocity is a promising solution for optical buffering and adva...
In present study, the effect of different defect layer refractive indices and thicknesses on group v...
The scanning delay line is a key component of time-domain optical coherence tomography systems. It h...
We comprehensively simulate and experimentally demonstrate a novel approach to generate tunable elec...
Controlling the optical response of a medium through suitably tuned coherent electromagnetic fields ...
We demonstrate temporal group delays in coherently coupled high- Q multicavity photonic crystals, in...
We demonstrate electromagnetically induced transparency and slow light in an optomechanical cavity, ...
Nowadays, information technology has been deeply integrated in our daily life. However, within its r...
We experimentally investigate the slow light enhancement of nonlinear effects such as self-phase mod...
We demonstrate tunable temporal delays in coherently-coupled multi-cavity photonic crystals, in anal...
Tunable on-chip optical delay has long been a key target for the research community, as it is the en...
Paradoxically, slow light promises to increase the speed of telecommunications in novel photonic str...
We present a summary of our recent experiments showing how various nonlinear phenomena are enhanced ...
We discovered that a silicon-on-insulator photonic crystal waveguide whose lattice is shifted along ...
The possibility to engineer the group velocity (vg) of light has attracted much attention in the las...
Slow light with a markedly low group velocity is a promising solution for optical buffering and adva...
In present study, the effect of different defect layer refractive indices and thicknesses on group v...
The scanning delay line is a key component of time-domain optical coherence tomography systems. It h...
We comprehensively simulate and experimentally demonstrate a novel approach to generate tunable elec...