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Entangling an arbitrary pair of qubits in a long ion crystal

, and . Phys. Rev. A, 98 (3): 032318 (September 2018)
DOI: 10.1103/PhysRevA.98.032318

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Modular software for real-time quantum control systems., , , , , , , , , and 2 other author(s). QCE, page 545-555. IEEE, (2022)QisDAX: An Open Source Bridge from Qiskit to Trapped-Ion Quantum Devices., , , , , , , , , and . QCE, page 825-836. IEEE, (2023)Short Definitions of the Ordinals., and . J. Symb. Log., 31 (3): 409-414 (1966)Entangling an arbitrary pair of qubits in a long ion crystal, and . Phys. Rev. A, 98 (3): 032318 (September 2018)Robust two-qubit gates in a linear ion crystal using a frequency-modulated driving force, , , , , and . (2017)cite arxiv:1708.08039.Control Infrastructure for Near-Term Long-Chain QCCD., , , and . QCE, page 357-358. IEEE, (2023)Quantum Fan-out: Circuit Optimizations and Technology Modeling., , , , , , and . QCE, page 276-290. IEEE, (2021)Demonstration of Shor encoding on a trapped-ion quantum computer, , , , , , , and . (2021)cite arxiv:2104.01205.CAFQA: A Classical Simulation Bootstrap for Variational Quantum Algorithms., , , , , , , , , and . ASPLOS (1), page 15-29. ACM, (2023)Resource-Efficient Quantum Computing by Breaking Abstractions., , , , , , , , , and 4 other author(s). Proc. IEEE, 108 (8): 1353-1370 (2020)