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arxiv: 2210.02936 · v1 · pith:AMYZBPJM · submitted 2022-10-06 · cond-mat.quant-gas · quant-ph

Functional building blocks for scalable multipartite entanglement in optical lattices

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classification cond-mat.quant-gas quant-ph
keywords quantumatomsentanglementmultipartitescalableatomblocksbuilding
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Featuring excellent coherence and operated parallelly, ultracold atoms in optical lattices form a competitive candidate for quantum computation. For this, a massive number of parallel entangled atom pairs have been realized in superlattices. However, the more formidable challenge is to scale-up and detect multipartite entanglement due to the lack of manipulations over local atomic spins in retro-reflected bichromatic superlattices. Here we developed a new architecture based on a cross-angle spin-dependent superlattice for implementing layers of quantum gates over moderately-separated atoms incorporated with a quantum gas microscope for single-atom manipulation. We created and verified functional building blocks for scalable multipartite entanglement by connecting Bell pairs to one-dimensional 10-atom chains and two-dimensional plaquettes of $2\times4$ atoms. This offers a new platform towards scalable quantum computation and simulation.

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