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Quantum simulation of 2D antiferromagnets with hundreds of Rydberg atoms

Abstract : Quantum simulation using synthetic systems is a promising route to solve outstanding quantum many-body problems in regimes where other approaches, including numerical ones, fail. Many platforms are being developed towards this goal, in particular based on trapped ions, superconducting circuits, neutral atoms or molecules. All of these platforms face two key challenges: scaling up the ensemble size while retaining high-quality control over the parameters, and validating the outputs for these large systems. Here we use programmable arrays of individual atoms trapped in optical tweezers, with interactions controlled by laser excitation to Rydberg states, to implement an iconic many-body problem—the antiferromagnetic two-dimensional transverse-field Ising model. We push this platform to a regime with up to 196 atoms manipulated with high fidelity and probe the antiferromagnetic order by dynamically tuning the parameters of the Hamiltonian. We illustrate the versatility of our platform by exploring various system sizes on two qualitatively different geometries—square and triangular arrays. We obtain good agreement with numerical calculations up to a computationally feasible size (approximately 100 particles). This work demonstrates that our platform can be readily used to address open questions in many-body physics.
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https://hal.archives-ouvertes.fr/hal-03282018
Contributor : Thierry Lahaye Connect in order to contact the contributor
Submitted on : Thursday, October 7, 2021 - 4:37:27 PM
Last modification on : Tuesday, January 4, 2022 - 6:45:48 AM
Long-term archiving on: : Saturday, January 8, 2022 - 6:08:17 PM

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Pascal Scholl, Michael Schuler, Hannah Williams, Alexander Eberharter, Daniel Barredo, et al.. Quantum simulation of 2D antiferromagnets with hundreds of Rydberg atoms. Nature, Nature Publishing Group, 2021, 595 (7866), pp.233-238. ⟨10.1038/s41586-021-03585-1⟩. ⟨hal-03282018⟩

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