Hybrid ion-ensemble nodes match bandwidths to enable parallel probabilistic entanglement generation, yielding a conceptual speed-up for ion-ion entanglement over hundreds of kilometers.
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The work extends a prior protocol to compare single-click and double-click entanglement generation between ions over hundreds of kilometers, showing that optimal choice depends on phase stability and interface efficiencies.
The paper provides the detailed geometric and computational methods for solving the spherical grasshopper problem in the context of Bell inequalities and singlet simulation.
citing papers explorer
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Hybrid Single-Ion Atomic-Ensemble Node for High-Rate Remote Entanglement Generation
Hybrid ion-ensemble nodes match bandwidths to enable parallel probabilistic entanglement generation, yielding a conceptual speed-up for ion-ion entanglement over hundreds of kilometers.
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Single and Double-click High-Rate Entanglement Generation Between Distant Ions Using Multiplexed Atomic Ensembles
The work extends a prior protocol to compare single-click and double-click entanglement generation between ions over hundreds of kilometers, showing that optimal choice depends on phase stability and interface efficiencies.
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The Grasshopper Problem on the Sphere
The paper provides the detailed geometric and computational methods for solving the spherical grasshopper problem in the context of Bell inequalities and singlet simulation.