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Spin Qubit Performance at the Error Correction Threshold: Advancing Quantum Information Processing Above 700 mK

Quantum Physics FOS: Physical sciences Quantum Physics (quant-ph)
DOI: 10.48550/arxiv.2412.01920 Publication Date: 2024-01-01
Abstract Supplemental Material References Cited by
AUTHORS (23)
Amitonov, S.
Aprà, A.
Asker, M.
Bals, R.
Barry, B.
Bashir, I.
Blokhina, E.
Giounanlis, P.
Harkin, M.
Hanos-Puskai, P.
Kriekouki, I.
Leipold, D.
Moras, M.
Murphy, N.
Petropoulos, N.
Power, C.
Sammak, A.
Samkharadze, N.
Semenov, A.
Sokolov, A.
Redmond, D.
Rohrbacher, C.
Wu, X.
ABSTRACT
13 pages, 7 figures, 4 tables<br/>This paper presents a characterization of a two-qubit processor in a 6-quantum dot array in SiGe, from the perspective of its quantum information processing capabilities. The analysis includes randomized benchmarking of single- and two-qubit gates, SPAM characterization, and Bell's state tomography; all basic functionality required for universal quantum computation. In light of our efforts to combine spin qubits with integrated cryogenic electronics, we evaluate the qubits' performance metrics at 300mK and 740mK. The latter temperature lies within the realistic thermal budget for integrated cryogenic electronics, making it particularly relevant for assessing qubit performance in practical scenarios.<br/>
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