A circular-modulated concatenated continuous driving (CMCCD) protocol for silicon qubits cancels counter-rotating errors via dual modulation and shows higher simulated fidelity plus improved experimental robustness to detuning and Rabi errors compared to standard Rabi or prior CCD drives.
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Fabrication-oriented design study for a phonon-mediated two-qubit module in strained Ge hole-spin qubits with specified readout at 1-4 K.
Time-dependent quantum simulations reveal spin-dependent snake-like trajectories for electrons released from quantum dots in InSb waveguides under electric drive, persisting with weak magnetic fields and matching semiclassical results.
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Concatenated continuous driving of silicon qubit by amplitude and phase modulation
A circular-modulated concatenated continuous driving (CMCCD) protocol for silicon qubits cancels counter-rotating errors via dual modulation and shows higher simulated fidelity plus improved experimental robustness to detuning and Rabi errors compared to standard Rabi or prior CCD drives.
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Two-Qubit Module Based on Phonon-Coupled Ge Hole-Spin Qubits: Design, Fabrication, and Readout at 1-4 K
Fabrication-oriented design study for a phonon-mediated two-qubit module in strained Ge hole-spin qubits with specified readout at 1-4 K.
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Snakelike trajectories of electrons released from quantum dots driven by the spin Hall effect
Time-dependent quantum simulations reveal spin-dependent snake-like trajectories for electrons released from quantum dots in InSb waveguides under electric drive, persisting with weak magnetic fields and matching semiclassical results.