Quantum Information Processing with Dual-Species Atomic Arrays

Abstract

Abstract: Given the substantial recent progress in the trapping and coherent control of individual Rydberg atoms loaded into structu,red arrays, and the fundamentally new physics and information processing that can be done in these systems, we have converted our ex,isting ONR-funded rubidium/ytterbium mixture apparatus into a dual-species Rydberg tweezer array. A mixture array has several unique, advantages, including allowing for natural implementationof n-body gates/interactions and independent dissipation and measurement o,f separate species, providing potential high-fidelity readout of quantum information. The conversion of the degenerate gas apparatus, into a Rydberg array system will be completed with funds from the previous ONR grant. This proposal will use this unique system top,ursue two broad research directions - using the independent control of each species to develop non-destructive measurement protocols, and real-time error correction, aided by n-body interactions afforded by this particular choice of atomic species. Second, we will, explore enhanced light-matter interactions, ensemble-enhanced photon-atom interactions. This can have impact on the ability to prod,uce usable distributed entanglement.

Document Details

Document Type

DoD Grant Award

Publication Date

Jan 14, 2022

Source ID

N000142212085

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