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Interplay of Zeeman Splitting and Tunnel Coupling in Coherent Spin Qubit Shuttling

Published 21 Jul 2025 in cond-mat.mes-hall and quant-ph | (2507.15554v1)

Abstract: Spin shuttling offers a promising approach for developing scalable silicon-based quantum processors by addressing the connectivity limitations of quantum dots (QDs). In this work, we demonstrate high-fidelity bucket-brigade (BB) spin shuttling in a silicon MOS device, utilizing Pauli Spin Blockade (PSB) readout. We achieve an average shuttling fidelity of \SI{99.8}{\percent}. The residual shuttling error is highly sensitive to the ratio between interdot tunnel coupling and Zeeman splitting, with tuning of these parameters enabling up to a twenty-fold variation in error rate. An appropriate four-level Hamiltonian model supports our findings. These results provide valuable insights for optimizing high-performance spin shuttling systems in future quantum architectures.

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