International audienceWe report on non-linear effects on the exciton ground state in a single quantum dot, driven by a strong resonant optical field. The resonant excitation is achieved by embedding the quantum dots in a waveguiding structure. Thus, the light-matter coupling is enhanced, allowing the observation of Rabi oscillations up to three periods. With increasing pulse area, a decrease of the exciton lifetime is observed leading to a very rapid damping of the oscillations amplitude. Resonant coherent control experiments show that the coherence time of the ground exciton state in a single quantum dot is fast, of the order of a few tens of picoseconds
The exact optical response of quantum few-level systems depends crucially on the exact choice of the...
textThis work explores the quantum coherence phenomena in self-assembled assembled quantum dots as ...
We have studied the coherence properties of one electron-pair state confined in a single quantum dot...
The focus of the thesis is nonlinear transient optical properties and coherent control of single int...
7th International Conference on Physics of Ligh-Matter Coupling in Nanostructures (PLMCN7), Havana, ...
Excitonic and spin excitations of single semiconductor quantum dots currently attract attention as p...
Excitons in quantum dots represent a remarkably good two-level system with a large optical dipole tr...
Quantum dots represent electrons confined in all three dimensions on nanometer length scales. They a...
We present measurements of the dephasing time and of optical Rabi oscillations in the excitonic grou...
International audienceThe energy states in semiconductor quantum dots are discrete as in atoms, and ...
While the advanced coherent control of qubits is now routinely carried out in low-frequency (gigaher...
Resonant excitation of solid state quantum emitters has the potential to deterministically excite a ...
In this thesis the results of experiments on the optical properties of single InGaAs quantum dots ar...
International audienceWe report on coherent control of the fundamental exciton state in a single qua...
Quantum mechanical systems, like atoms, molecules, ions, spin-systems, and recently also semiconduct...
The exact optical response of quantum few-level systems depends crucially on the exact choice of the...
textThis work explores the quantum coherence phenomena in self-assembled assembled quantum dots as ...
We have studied the coherence properties of one electron-pair state confined in a single quantum dot...
The focus of the thesis is nonlinear transient optical properties and coherent control of single int...
7th International Conference on Physics of Ligh-Matter Coupling in Nanostructures (PLMCN7), Havana, ...
Excitonic and spin excitations of single semiconductor quantum dots currently attract attention as p...
Excitons in quantum dots represent a remarkably good two-level system with a large optical dipole tr...
Quantum dots represent electrons confined in all three dimensions on nanometer length scales. They a...
We present measurements of the dephasing time and of optical Rabi oscillations in the excitonic grou...
International audienceThe energy states in semiconductor quantum dots are discrete as in atoms, and ...
While the advanced coherent control of qubits is now routinely carried out in low-frequency (gigaher...
Resonant excitation of solid state quantum emitters has the potential to deterministically excite a ...
In this thesis the results of experiments on the optical properties of single InGaAs quantum dots ar...
International audienceWe report on coherent control of the fundamental exciton state in a single qua...
Quantum mechanical systems, like atoms, molecules, ions, spin-systems, and recently also semiconduct...
The exact optical response of quantum few-level systems depends crucially on the exact choice of the...
textThis work explores the quantum coherence phenomena in self-assembled assembled quantum dots as ...
We have studied the coherence properties of one electron-pair state confined in a single quantum dot...