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Two-dimensional arrays of optically trapped neutral atoms are a promising candidate for scalable quantum computation. In particular, nuclear spin qubits for which each qubit state is encoded in a magnetic sublevel of the ground manifold realize exceptionally long qubit coherence times as a result of the naturally occuring long-lived states of the atom. In this talk, I will discuss techniques and tools we are using to assemble an array of up to 100 strontium-87 atoms in our first system: Phoenix. I will also discuss our implementation of single-site addressable, high-fidelity, single and multi-qubit gates.
Kayleigh Cassella
"Techniques for the assembly and coherent control of a register of nuclear spin qubits", Proc. SPIE PC12243, Photonics for Quantum 2022, PC1224304 (19 July 2022); https://doi.org/10.1117/12.2641484
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Kayleigh Cassella, "Techniques for the assembly and coherent control of a register of nuclear spin qubits," Proc. SPIE PC12243, Photonics for Quantum 2022, PC1224304 (19 July 2022); https://doi.org/10.1117/12.2641484