We experimentally demonstrate how coherent population trapping (CPT) for donor-bound electron spins in GaAs results in autonomous feedback that prepares stabilized states for the spin polarization of nuclei around the electrons. CPT was realized by excitation with two lasers to a bound-exciton state. Transmission studies of the spectral CPT feature on an ensemble of electrons directly reveal the statistical distribution of prepared nuclear-spin states. Tuning the laser driving from blue to red detuned drives a transition from one to two stable states. Our results have importance for ongoing research on schemes for dynamic nuclear-spin polarization, the central spin problem, and control of spin coherence.</p
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
We experimentally demonstrate how coherent population trapping (CPT) for donor-bound electron spins ...
We experimentally demonstrate how coherent population trapping (CPT) for donor-bound electron spins ...
We experimentally demonstrate how coherent population trapping (CPT) for donor-bound electron spins ...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
We experimentally demonstrate how coherent population trapping (CPT) for donor-bound electron spins ...
We experimentally demonstrate how coherent population trapping (CPT) for donor-bound electron spins ...
We experimentally demonstrate how coherent population trapping (CPT) for donor-bound electron spins ...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
This thesis describes experiments and simulations on the coherent optical manipulation of ensembles ...
Feedback control is a powerful tool to stabilize systems for which precision control is difficult to...