Publication | Closed Access
Fast Spin State Initialization in a Singly Charged InAs-GaAs Quantum Dot by Optical Cooling
278
Citations
23
References
2007
Year
SpintronicsQuantum ScienceEngineeringQuantum ComputingPhysicsOptical CoolingQuantum DeviceApplied PhysicsQuantum SimulationQuantum InformationElectron SpinQuantum Photonic DeviceOptoelectronicsQuantum Error CorrectionQuantum Hardware
Quantum computation requires a continuous supply of rapidly initialized qubits for quantum error correction. Here, we demonstrate fast spin state initialization with near unity efficiency in a singly charged quantum dot by optically cooling an electron spin. The electron spin is successfully cooled from 5 to 0.06 K at a magnetic field of 0.88 T applied in Voigt geometry. The spin cooling rate is of order 10(9) s-1, which is set by the spontaneous decay rate of the excited state.
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