Eric Kleinherbers, Hendrik Mannel, Jens Kerski, Martin Geller, Axel Lorke, Jürgen König
Published 2023-05-24Version 1
The use of single electron spins in quantum dots as qubits requires detailed knowledge about the processes involved in their initialization and operation as well as their relaxation and decoherence. In optical schemes for such spin qubits, spin-flip Raman as well as Auger processes play an important role, in addition to environment-induced spin relaxation. In this paper, we demonstrate how to quantitatively access all the spin-related processes in one go by monitoring the charge fluctuations of the quantum dot. For this, we employ resonance fluorescence and analyze the charge fluctuations in terms of waiting-time distributions and full counting statistics characterized by factorial cumulants.
Comments: 14 pages, 8 figures
Charge Fluctuations in a Quantum Dot with a Dissipative Environment
Dephasing in a quantum dot due to coupling with a quantum point contact
Transient Charging and Discharging of Spin-polarized Electrons in a Quantum Dot
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