Repulsive barricade potentials enable multiple loading cycles in optical tweezers by extending collision-limited lifetimes to hundreds of milliseconds, achieving 94% atom and 82% molecule loading after four cycles.
Trapp, Jinen Guo, Mohamed H
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2representative citing papers
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.
citing papers explorer
-
Near-deterministic loading of optical tweezer arrays via repulsive barricade potentials
Repulsive barricade potentials enable multiple loading cycles in optical tweezers by extending collision-limited lifetimes to hundreds of milliseconds, achieving 94% atom and 82% molecule loading after four cycles.
-
Square-root Time Atom Reconfiguration Plan for Lattice-shaped Mobile Tweezers
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.