Flip-Chip Packaging of Fluxonium Qubits
ORAL
Abstract
The strong anharmonicity and high coherence times inherent to fluxonium superconducting circuits are desirable for implementing quantum information processors [1]. To date, coherence times in excess of 1 ms and both single- and two-qubit gate fidelities above 99.99% and 99%, respectively, have been demonstrated with fluxonium qubits [2,3]. In this talk, we report novel work on fluxoniums embedded in a multi-chip module (MCM), implementing a 2.5D architecture, where a classical control and readout chip is bump-bonded to the quantum chip. We show that this configuration does not degrade the fluxonium qubit performance, paving the way for scaling fluxonium-based quantum processors.
[1] Nguyen et al. Phys. Rev. X 9, 041041 (2019)
[2] Somoroff et al. arXiv:2103.08578 (2021)
[3] Ficheux et al. Phys. Rev. X 11, 021026 (2021)
[1] Nguyen et al. Phys. Rev. X 9, 041041 (2019)
[2] Somoroff et al. arXiv:2103.08578 (2021)
[3] Ficheux et al. Phys. Rev. X 11, 021026 (2021)
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Presenters
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Aaron Somoroff
SEEQC, Inc.
Authors
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Aaron Somoroff
SEEQC, Inc.
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Patrick Truitt
SEEQC, Inc.
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Adam Weis
SEEQC, Inc.
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Konstantin Kalashnikov
SEEQC, Inc.
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Jacob Bernhardt
SEEQC, Inc.
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Igor Vernik
SEEQC, Inc.
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Ray A Mencia
University of Maryland, College Park
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Oleg Mukhanov
Seeqc, SEEQC, Inc.
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Maxim G Vavilov
UW-Madison
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Vladimir E Manucharyan
University of Maryland, College Park & EPFL, University of Maryland, College Park