Probing equilibrium nuclear spin bath fluctuations in an InGaAs quantum dot using a novel “frequency-comb” nuclear magnetic resonance spectroscopy technique
On-demand High Fidelity Initialization of Long-lived Hole Spin Qubits by Control of Quantum Dot Fine-structure
Suppression of nuclear spin bath fluctuations in self-assembled quantum dots induced by inhomogeneous strain
Excitonic Population Inversion of a Quantum Dot by Rapid Thermal Relaxation of Optically Dressed States