Bulletin of the American Physical Society
54th Annual Meeting of the APS Division of Atomic, Molecular and Optical Physics
Volume 68, Number 7
Monday–Friday, June 5–9, 2023; Spokane, Washington
Session K09: Advances in Quantum Gates and Computing with Trapped Ions
10:30 AM–12:30 PM,
Wednesday, June 7, 2023
Room: 206 D
Chair: Brian McMahon, GTRI
Abstract: K09.00005 : Quantum information processing in mixed qubit type registers of individually addressed 137Ba+ ions
11:18 AM–11:30 AM
Presenter:
Ana S Sotirova
(Department of Physics, University of Oxford)
Authors:
Ana S Sotirova
(Department of Physics, University of Oxford)
Jamie Leppard
(Department of Physics, University of Oxford)
Andres Vazquez Brennan
(University of Oxford)
Fabian Pokorny
(Department of Physics, University of Oxford)
Christopher J Ballance
(Department of Physics, University of Oxford)
Employing mixed qubits types within the same register, combined with our individual addressing capabilities, enables techniques like mid-circuit measurements and in-sequence cooling. These techniques are essential for most error correction and error mitigation schemes, as well as dynamic quantum circuit designs. We demonstrate post-selection schemes that enhance the fidelity of state preparation and effectively identify and eliminate errors due to population leakage. We further present preliminary results on a direct entangling gate between a ground level and a metastable level qubit. Such gates make certain quantum algorithms more efficient by minimising the number of necessary operations. Lastly, we discuss how utilising qudit[2] or polyqubit[3] encodings has the potential to simplify some quantum information protocols by reducing the number of ions required.
[1] Allcock, D.T.C., Campbell, W.C., Chiaverini, J., Chuang, I.L., Hudson, E.R., Moore, I.D., Ransford, A., Roman, C., Sage, J.M. and Wineland, D.J., 2021. Omg blueprint for trapped ion quantum computing with metastable states. Applied Physics Letters, 119(21), p.214002.
[2] Low, P.J., White, B.M., Cox, A.A., Day, M.L. and Senko, C., 2020. Practical trapped-ion protocols for universal qudit-based quantum computing. Physical Review Research, 2(3), p.033128.
[3] Campbell, W.C. and Hudson, E.R., 2022. Polyqubit quantum processing. arXiv preprint arXiv:2210.15484.
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