Decoherence and fidelity enhancement during shuttling of entangled spin qubits

• URL: http://arxiv.org/abs/2506.19671v1
• Date: Tue, 24 Jun 2025 14:37:39 GMT
• Title: Decoherence and fidelity enhancement during shuttling of entangled spin qubits
• Authors: Yu-Ning Zhang, Aleksandr S. Mokeev, Viatcheslav V. Dobrovitski,
• Abstract summary: We show that noises acting on the shuttled spins exhibit complex and unusual correlations.<n>These correlations can also be exploited to enhance the shuttling fidelity.<n>We show that by encoding logical qubit in a state of two consequtively shuttled entangled spins, high fidelity can be achieved even for very slow shuttling.
• Score: 45.05458154702236
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Shuttling of spin qubits between different locations is a key element in many prospective semiconductor systems for quantum information processing, but the shuttled qubits should be protected from decoherence created by time- and space-dependent noises. Since the paths of different spin qubits are interrelated, the noises acting on the shuttled spins exhibit complex and unusual correlations. We appraise the role of these correlations using the concept of trajectories on random sheets, and demonstrate that they can drastically affect efficiency of the coherence protection. These correlations can also be exploited to enhance the shuttling fidelity, and we show that by encoding logical qubit in a state of two consequtively shuttled entangled spins, high fidelity can be achieved even for very slow shuttling. We identify the conditions favoring this encoding, and quantify improvement in the shuttling fidelity in comparison with the single-spin shuttling.

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