Calibration of flux crosstalk in large-scale flux-tunable superconducting quantum circuits

Calibration of flux crosstalk in large-scale flux-tunable superconducting quantum circuits

Magnetic flux tunability is an essential feature in most approaches to quantum computing based on superconducting qubits. Independent control of the fluxes in multiple loops is hampered by crosstalk. Calibrating flux crosstalk becomes a challenging task when the circuit elements interact strongly. W...

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Veröffentlicht in:arXiv.org 2021-10
Hauptverfasser: Dai, X, Tennant, D M, Trappen, R, Martinez, A J, Melanson, D, Yurtalan, M A, Tang, Y, Novikov, S, Grover, J A, Disseler, S M, Basham, J I, Das, R, Kim, D K, Melville, A J, Niedzielski, B M, Weber, S J, Yoder, J L, Lidar, D A, Lupascu, A
Format: Artikel
Sprache:eng
Schlagworte:
Calibration
Circuits
Crosstalk
Inductive coupling
Iterative methods
Magnetic flux
Physics - Quantum Physics
Quantum computing
Qubits (quantum computing)
Superconductivity
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Zusammenfassung:Magnetic flux tunability is an essential feature in most approaches to quantum computing based on superconducting qubits. Independent control of the fluxes in multiple loops is hampered by crosstalk. Calibrating flux crosstalk becomes a challenging task when the circuit elements interact strongly. We present a novel approach to flux crosstalk calibration, which is circuit model independent and relies on an iterative process to gradually improve calibration accuracy. This method allows us to reduce errors due to the inductive coupling between loops. The calibration procedure is automated and implemented on devices consisting of tunable flux qubits and couplers with up to 27 control loops. We devise a method to characterize the calibration error, which is used to show that the errors of the measured crosstalk coefficients are all below 0.17%.
ISSN:2331-8422
DOI:10.48550/arxiv.2105.14360