We report the all-electrical control over cavity-emitter systems, consisting in Stark-tunable quantum dots embedded in mechanically reconfigurable photonic crystal membranes. Purcell-effect from a single dot is demonstrated at distinct wavelengths
We report the control over the spontaneous emission of energy-tunable quantum emitters embedded in p...
A single quantum dot deterministically coupled to a photonic crystal environment constitutes an indi...
We present a device for the spectral reconfiguration of a two-dimensional photonic crystal cavity (P...
We report the all-electrical control over cavity-emitter systems, consisting in Stark-tunable quantu...
We report the all-electrical control over cavity-emitter systems, consisting in Stark-tunable quantu...
We report the full energy control over a semiconductor cavity-emitter system, consisting of single S...
Quantum photonic integrated circuits hold great potential as a novel class of semiconductor technolo...
We report the control over the spontaneous emission of energy-tunable quantum emitters embedded in p...
A single quantum dot deterministically coupled to a photonic crystal environment constitutes an indi...
We present a device for the spectral reconfiguration of a two-dimensional photonic crystal cavity (P...
We report the all-electrical control over cavity-emitter systems, consisting in Stark-tunable quantu...
We report the all-electrical control over cavity-emitter systems, consisting in Stark-tunable quantu...
We report the full energy control over a semiconductor cavity-emitter system, consisting of single S...
Quantum photonic integrated circuits hold great potential as a novel class of semiconductor technolo...
We report the control over the spontaneous emission of energy-tunable quantum emitters embedded in p...
A single quantum dot deterministically coupled to a photonic crystal environment constitutes an indi...
We present a device for the spectral reconfiguration of a two-dimensional photonic crystal cavity (P...