Demonstration of a continuous crossover from Rabi oscillations to adiabatic population switching in unbalanced Lambda-system Faraday control of quantum dot spins via detuning beatnote tuning and oscillating Stark shift.
Complete coherent control of spin qubits in self-assembled InAs quantum dots under oblique magnetic fields
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abstract
We demonstrate complete coherent control of a single spin qubit confined in a self-assembled InAs negatively charged quantum dot subjected to an Oblique magnetic field, and directly compare this regime with the conventional Voigt geometry. In the Oblique-field configuration, the groundstate spin eigenstates are found to be unequal superpositions of the bare electron spin, with their composition tunable via the orientation of the applied field. This tunable spin mixing provides an additional degree of freedom to engineer the spin basis and associated optical couplings in the charged quantum dot system. Although this geometry has a distinct structure with important implications, it provides a regime in which we can fully and coherently control the tailored spin qubit. We observe Rabi oscillations and Ramsey fringes, and demonstrate arbitrary single-qubit rotations, enabling a direct comparison with the Voigt case. Our results establish that spin-qubit control does not necessarily require a pure Voigt geometry and can instead be achieved under Oblique magnetic fields. This relaxes constraints on device and field alignment and offers a versatile route to design and optimize quantum information processing architectures in semiconductor quantum dots.
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cond-mat.mes-hall 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Crossover from Rabi oscillations to adiabatic population switching in the Faraday optical control of quantum dot spins
Demonstration of a continuous crossover from Rabi oscillations to adiabatic population switching in unbalanced Lambda-system Faraday control of quantum dot spins via detuning beatnote tuning and oscillating Stark shift.