Publikation: Crosstalk analysis in single hole-spin qubits within highly anisotropic g-tensors
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2025
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Physical Review Research. American Physical Society (APS). 2025, 7(2), 023277. eISSN 2643-1564. Verfügbar unter: doi: 10.1103/qzn2-l71q
Zusammenfassung
Spin qubits based on valence band hole states are highly promising for quantum information processing due to their strong spin-orbit coupling and ultrafast operation speed. As these systems scale up, achieving high-fidelity single-qubit operations becomes essential. However, mitigating crosstalk effects from neighboring qubits in larger arrays, particularly for anisotropic qubits with strong spin-orbit coupling, presents a significant challenge. We investigate the impact of crosstalk on qubit fidelities during single-qubit operations and derive an analytical equation that serves as a synchronization condition to eliminate crosstalk in anisotropic media. Our analysis proposes optimized driving field conditions that can robustly synchronize Rabi oscillations and minimize crosstalk, showing a strong dependence on qubit anisotropy and the orientation of the external magnetic field. Taking experimental data into our analysis, we identify a set of parameter values that enable nearly crosstalk-free single-qubit gates, thereby paving the way for scalable quantum computing architectures.
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HAJATI, Yaser, Irina HEINZ, Guido BURKARD, 2025. Crosstalk analysis in single hole-spin qubits within highly anisotropic g-tensors. In: Physical Review Research. American Physical Society (APS). 2025, 7(2), 023277. eISSN 2643-1564. Verfügbar unter: doi: 10.1103/qzn2-l71qBibTex
@article{Hajati2025-06-18Cross-73782,
title={Crosstalk analysis in single hole-spin qubits within highly anisotropic g-tensors},
year={2025},
doi={10.1103/qzn2-l71q},
number={2},
volume={7},
journal={Physical Review Research},
author={Hajati, Yaser and Heinz, Irina and Burkard, Guido},
note={Article Number: 023277}
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<dcterms:abstract>Spin qubits based on valence band hole states are highly promising for quantum information processing due to their strong spin-orbit coupling and ultrafast operation speed. As these systems scale up, achieving
high-fidelity single-qubit operations becomes essential. However, mitigating crosstalk effects from neighboring qubits in larger arrays, particularly for anisotropic qubits with strong spin-orbit coupling, presents a significant challenge. We investigate the impact of crosstalk on qubit fidelities during single-qubit operations and derive an analytical equation that serves as a synchronization condition to eliminate crosstalk in anisotropic media. Our analysis proposes optimized driving field conditions that can robustly synchronize Rabi oscillations and minimize crosstalk, showing a strong dependence on qubit anisotropy and the orientation of the external magnetic field. Taking experimental data into our analysis, we identify a set of parameter values that enable nearly crosstalk-free single-qubit gates, thereby paving the way for scalable quantum computing architectures.</dcterms:abstract>
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