Cloud-Accessible, Programmable Quantum Simulator Based on Two-Dimensional Neutral Atom Arrays

Florian Huber; Jesse Amato-Grill; Alexei Bylinskii; Sergio H. Cantu; Ming-Guang Hu; Donggyu Kim; Alexander Lukin; Nate Gemelke; Alexander Keesling

doi:10.1364/QUANTUM.2022.QW3A.2

Quantum 2.0 Conference and Exhibition
Technical Digest Series (Optica Publishing Group, 2022),
paper QW3A.2
•https://doi.org/10.1364/QUANTUM.2022.QW3A.2

Cloud-Accessible, Programmable Quantum Simulator Based on Two-Dimensional Neutral Atom Arrays

Florian Huber, Jesse Amato-Grill, Alexei Bylinskii, Sergio H. Cantu, Ming-Guang Hu, Donggyu Kim, Alexander Lukin, Nate Gemelke, and Alexander Keesling

Quantum 2.0 2022

Boston, MA United States
13–16 June 2022
ISBN: 978-1-957171-11-1

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Atom/Ion Quantum Computing (QW3A)

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F. Huber, J. Amato-Grill, A. Bylinskii, S. H. Cantu, M. Hu, D. Kim, A. Lukin, N. Gemelke, and A. Keesling, "Cloud-Accessible, Programmable Quantum Simulator Based on Two-Dimensional Neutral Atom Arrays," in Quantum 2.0 Conference and Exhibition, Technical Digest Series (Optica Publishing Group, 2022), paper QW3A.2.

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Abstract

Neutral atom arrays recently emerged as one the leading platforms for large-scale quantum computing and simulations [1, 2]. These systems offer a variety of possible qubit encodings with long coherence times along with exceptional programmability and reconfigurability of the array geometry and qubit connectivity. In addition, strong, highly coherent coupling between the qubits can be achieved using Rydberg states of the atoms. QuEra provides a cloud-accessible, programmable 256-qubit quantum simulator based on a two-dimensional array of Rubidium-87 atoms in reconfigurable optical tweezers.

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