Entangled states from sparsely coupled spins for metrology with neutral atoms

Entangled states from sparsely coupled spins for metrology with neutral atoms

Quantum states featuring extensive multipartite entanglement are a resource for quantum-enhanced metrology, with sensitivity up to the Heisenberg limit. However, robust generation of these states using unitary dynamics typically requires all-to-all interactions among particles. Here, we demonstrate...

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Veröffentlicht in:arXiv.org 2024-12
Hauptverfasser: Kuriyattil, Sridevi, Poggi, Pablo M, Pritchard, Jonathan D, Kombe, Johannes, Daley, Andrew J
Format: Artikel
Sprache:eng
Schlagworte:
Atomic properties
Couplings
Entangled states
Graphs
Metrology
Neutral atoms
Reconfiguration
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Zusammenfassung:Quantum states featuring extensive multipartite entanglement are a resource for quantum-enhanced metrology, with sensitivity up to the Heisenberg limit. However, robust generation of these states using unitary dynamics typically requires all-to-all interactions among particles. Here, we demonstrate that optimal states for quantum sensing can be generated with sparse interaction graphs featuring only a logarithmic number of couplings per particle. We show that specific sparse graphs with long-range interactions can approximate the dynamics of all-to-all spin models, such as the one-axis twisting model, even for large system sizes. The resulting sparse coupling graphs and protocol can also be efficiently implemented using dynamic reconfiguration of atoms in optical tweezers.
ISSN:2331-8422