Relative motion activates a correlated decoherence channel via Doppler-shifted spectral overlap above the threshold v > 2u_φ, while below threshold the environment acts mainly as a coherent mediator.
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Confinement modulation during shuttling enables dressed-state dynamical decoupling that mitigates both global and local magnetic/electric noise in hole-spin qubits.
Theoretical expressions for singlet return probability in multivalley Si double quantum dots near spin-valley resonances are derived, accounting for valley occupations, and validated against experiments to map valley splittings and probe g-factor dependence.
citing papers explorer
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Correlated decoherence in a common environment activated by relative motion
Relative motion activates a correlated decoherence channel via Doppler-shifted spectral overlap above the threshold v > 2u_φ, while below threshold the environment acts mainly as a coherent mediator.
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Suppressing spin qubit decoherence during shuttling via confinement modulation
Confinement modulation during shuttling enables dressed-state dynamical decoupling that mitigates both global and local magnetic/electric noise in hole-spin qubits.
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Singlet-triplet oscillations in multivalley Si double quantum dots
Theoretical expressions for singlet return probability in multivalley Si double quantum dots near spin-valley resonances are derived, accounting for valley occupations, and validated against experiments to map valley splittings and probe g-factor dependence.