Add to ORKGInternational audienceWe demonstrate bias control of the efficiency of the hyperfine coupling between a single electron in an InAs quantum dot and the surrounding nuclear spins monitored through the positively charged exciton X+ emission. In applied longitudinal magnetic fields, we vary simultaneously the correlation time of the hyperfine interaction and the nuclear spin relaxation time and thereby the amplitude of the achieved dynamic nuclear polarization under optical pumping conditions. In applied transverse magnetic fields, a change in the applied bias allows a switch from the anomalous Hanle effect to the standard electron spin depolarization curves
Session T36 GOI: Focus Session: Semiconductor Qubits: Magnetic Control & Nuclear DynamicIn a semicon...
Resonant optical excitation of lowest-energy excitonic transitions in self-assembled quantum dots le...
Th is work present original results of investigation of nuclear spin dynamics in nanostructure with ...
International audienceWe demonstrate bias control of the efficiency of the hyperfine coupling betwee...
4+ pages, 3 figuresWe report on the dynamic nuclear polarization of a single charge-tunable self-ass...
Electron spins in quantum dots under coherent control exhibit a number of novel feedback processes. ...
International audienceWe report on the influence of the hyperfine interaction on the optical orienta...
Symposium on Dilute Magnetic Materials for Spintronic Applications held at the 2006 Fall E-MRS Meeti...
We present measurements of the buildup and decay of nuclear spin polarization in a single semiconduc...
In a coupled double-quantum-dot system, we present a theory for the interplay between electron and n...
Hyperfine interaction in a quantum dot produces a spin-coupled system between an injected electron a...
The electron-spin dynamics of positively charged excitons in a single InAs quantum dot (QD) were mea...
We investigate the electric manipulation of a single-electron spin in a single gate-defined quantum ...
The emission of circularly polarized light from a single quantum dot relies on the injection of carr...
For spin-based quantum computation in semiconductors, dephasing of electron spins by a fluctuating b...
Session T36 GOI: Focus Session: Semiconductor Qubits: Magnetic Control & Nuclear DynamicIn a semicon...
Resonant optical excitation of lowest-energy excitonic transitions in self-assembled quantum dots le...
Th is work present original results of investigation of nuclear spin dynamics in nanostructure with ...
International audienceWe demonstrate bias control of the efficiency of the hyperfine coupling betwee...
4+ pages, 3 figuresWe report on the dynamic nuclear polarization of a single charge-tunable self-ass...
Electron spins in quantum dots under coherent control exhibit a number of novel feedback processes. ...
International audienceWe report on the influence of the hyperfine interaction on the optical orienta...
Symposium on Dilute Magnetic Materials for Spintronic Applications held at the 2006 Fall E-MRS Meeti...
We present measurements of the buildup and decay of nuclear spin polarization in a single semiconduc...
In a coupled double-quantum-dot system, we present a theory for the interplay between electron and n...
Hyperfine interaction in a quantum dot produces a spin-coupled system between an injected electron a...
The electron-spin dynamics of positively charged excitons in a single InAs quantum dot (QD) were mea...
We investigate the electric manipulation of a single-electron spin in a single gate-defined quantum ...
The emission of circularly polarized light from a single quantum dot relies on the injection of carr...
For spin-based quantum computation in semiconductors, dephasing of electron spins by a fluctuating b...
Session T36 GOI: Focus Session: Semiconductor Qubits: Magnetic Control & Nuclear DynamicIn a semicon...
Resonant optical excitation of lowest-energy excitonic transitions in self-assembled quantum dots le...
Th is work present original results of investigation of nuclear spin dynamics in nanostructure with ...