In situ single-atom array synthesis using dynamic holographic optical tweezers.Nature Commu- nications, 7(13317), October 2016

Hyosub Kim, Woojun Lee, Han-Gyeol Lee, Hanlae Jo, Yunheung Song, Jaewook Ahn · 2016 · DOI 10.1038/ncomms13317

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Square-root Time Atom Reconfiguration Plan for Lattice-shaped Mobile Tweezers

quant-ph · 2026-04-07 · conditional · novelty 6.0

A divide-and-conquer algorithm decomposes atom reconfiguration into three 1D shuttling tasks, enabling O(sqrt N) total transportation cost and reliable solutions via the Gale-Ryser theorem for arbitrary geometries.

Near-deterministic loading of optical tweezer arrays via repulsive barricade potentials

physics.atom-ph · 2026-04-24

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Square-root Time Atom Reconfiguration Plan for Lattice-shaped Mobile Tweezers quant-ph · 2026-04-07 · conditional · none · ref 2
A divide-and-conquer algorithm decomposes atom reconfiguration into three 1D shuttling tasks, enabling O(sqrt N) total transportation cost and reliable solutions via the Gale-Ryser theorem for arbitrary geometries.
Near-deterministic loading of optical tweezer arrays via repulsive barricade potentials physics.atom-ph · 2026-04-24 · unreviewed · ref 17

In situ single-atom array synthesis using dynamic holographic optical tweezers.Nature Commu- nications, 7(13317), October 2016

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