Add to ORKGWe perform frequency- and time-resolved all-optical switching of a GaAs-AlAs micropillar cavity using an ultrafast pump-probe setup. The switching is achieved by two-photon excitation of free carriers. We track the cavity resonances in time with a high frequency resolution. The pillar modes exhibit simultaneous frequency shifts, albeit with markedly different maximum switching amplitudes and relaxation dynamics. These differences stem from the non-uniformity of the free carrier density in the micropillar, and are well understood by taking into account the spatial distribution of injected free carriers, their spatial diffusion and surface recombination at micropillar sidewall
We have switched GaAs/AlAs and AlGaAs/AlAs planar microcavities that operate in the “Original” (O) t...
We have studied a GaAs–AlAs planar microcavity with a resonance near 1300 nm in the telecom range by...
We have switched GaAs/AlAs and AlGaAs/AlAs planar microcavities that operate in the "Original" (O) t...
We present ultrafast reflectivity measurements on the dynamics of optically excited free carriers in...
The authors study the ultrafast switching-on and -off of planar GaAs/AlAs microcavities. Up to 0.8% ...
We report on ultrafast all-optical switching experiments performed on pillar microcavities containin...
Il est possible de modifier en quelques picosecondes les fréquences de résonance d’une microcavité o...
Il est possible de modifier en quelques picosecondes les fréquences de résonance d’une microcavité o...
International audienceWe review recent studies of cavity switching induced by the optical injection ...
In this thesis we study ultrafast all-optical switching of microcavities. We employ the electronic K...
In this thesis we study ultrafast all-optical switching of microcavities. We employ the electronic K...
We have performed ultrafast pump–probe experiments on a GaAs–AlAs microcavity with a resonance near ...
We review recent studies of cavity switching induced by the optical injection of free carriers in mi...
We have performed ultra fast pump-probe experiments on a GaAs-AlAs microcavity with a resonance near...
We have switched GaAs/AlAs and AlGaAs/AlAs planar microcavities that operate in the “Original” (O) t...
We have switched GaAs/AlAs and AlGaAs/AlAs planar microcavities that operate in the “Original” (O) t...
We have studied a GaAs–AlAs planar microcavity with a resonance near 1300 nm in the telecom range by...
We have switched GaAs/AlAs and AlGaAs/AlAs planar microcavities that operate in the "Original" (O) t...
We present ultrafast reflectivity measurements on the dynamics of optically excited free carriers in...
The authors study the ultrafast switching-on and -off of planar GaAs/AlAs microcavities. Up to 0.8% ...
We report on ultrafast all-optical switching experiments performed on pillar microcavities containin...
Il est possible de modifier en quelques picosecondes les fréquences de résonance d’une microcavité o...
Il est possible de modifier en quelques picosecondes les fréquences de résonance d’une microcavité o...
International audienceWe review recent studies of cavity switching induced by the optical injection ...
In this thesis we study ultrafast all-optical switching of microcavities. We employ the electronic K...
In this thesis we study ultrafast all-optical switching of microcavities. We employ the electronic K...
We have performed ultrafast pump–probe experiments on a GaAs–AlAs microcavity with a resonance near ...
We review recent studies of cavity switching induced by the optical injection of free carriers in mi...
We have performed ultra fast pump-probe experiments on a GaAs-AlAs microcavity with a resonance near...
We have switched GaAs/AlAs and AlGaAs/AlAs planar microcavities that operate in the “Original” (O) t...
We have switched GaAs/AlAs and AlGaAs/AlAs planar microcavities that operate in the “Original” (O) t...
We have studied a GaAs–AlAs planar microcavity with a resonance near 1300 nm in the telecom range by...
We have switched GaAs/AlAs and AlGaAs/AlAs planar microcavities that operate in the "Original" (O) t...