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Leakage and sweet spots in triple-quantum-dot spin qubits: A molecular-orbital study

Authors :
Xin Wang
Xu-Chen Yang
Zhang Chengxian
Publication Year :
2017
Publisher :
arXiv, 2017.

Abstract

A triple-quantum-dot system can be operated as either an exchange-only qubit or a resonant-exchange qubit. While it is generally believed that the decisive advantage of the resonant-exchange qubit is the suppression of charge noise because it is operated at a sweet spot, we show that the leakage is also an important factor. Through molecular-orbital-theoretic calculations, we show that when the system is operated in the exchange-only scheme, the leakage to states with double electron occupancy in quantum dots is severe when rotations around the axis 120$^\circ$ from $\hat{z}$ is performed. While this leakage can be reduced by either shrinking the dots or separating them further, the exchange interactions are also suppressed at the same time, making the gate operations unfavorably slow. When the system is operated as a resonant-exchange qubit, the leakage is 3-5 orders of magnitude smaller. We have also calculated the optimal detuning point which minimizes the leakage for the resonant-exchange qubit, and have found that although it does not coincide with the double-sweet-spot for the charge noise, they are rather close. Our results suggest that the resonant-exchange qubit has another advantage that leakage can be greatly suppressed compared to the exchange-only qubit, and operating at the double-sweet-spot point should be optimal both for reducing charge noise and suppressing leakage.<br />Comment: 11 pages, 14 figures

Details

Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....be14542919eed72b4fd5fcd1f63d9e1e
Full Text :
https://doi.org/10.48550/arxiv.1711.06418