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Neutral Atom Rydberg Quantum Computing
Trimer Dynamics in Floquet-driven arrays of Rydberg Atoms
arXiv
Authors: Edoardo Tiburzi, Lorenzo Maffi, Luca Dell'Anna, Marco Di Liberto
Year
2026
Paper ID
3513
Status
Preprint
Abstract Read
~2 min
Abstract Words
153
Citations
N/A
Abstract
We analyze the WAHUHA Floquet protocol recently applied to arrays of Rydberg atoms and derive beyond-leading-order corrections in the high-frequency expansion of the effective spin theory. We find that an appropriate choice of the pulses times can enforce an approximate symmetry corresponding to the conservation of the total magnetization. The interaction channels emerging from higher-order Floquet terms affect three-body bound states emph{trimers}, which gain a significant mobility. We estimate the corresponding enhancement in 1D spin chains and conclude that their dynamics is within experimental reach. Detrimental effects due to the proliferation of particles outside of the trimer magnetization sector are found to occur and spread on time-scales slower than the trimer propagation. Moreover, these can be suppressed in higher dimensional lattices, e.g. in 2D triangular lattices, as the lattice geometry brings these processes off resonance. Our results establish a concrete route to realizing mobile multiparticle bound states in Floquet-engineered Rydberg platforms.
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- This paper contributes to the Neutral-Atom & Rydberg Quantum Computing research area in the Quantum Articles archive.
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- We analyze the WAHUHA Floquet protocol recently applied to arrays of Rydberg atoms and derive beyond-leading-order corrections in the high-frequency expansion of the effective...
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