First metropolitan-scale quantum repeater achieving Bell nonlocality certification over 14.5 km using a new time-measurement multiplexed protocol with 78.6% fidelity.
Quan- tum repeaters based on atomic ensembles and linear optics
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Simulations identify anisotropic ground stations, multi-inclination LEO orbits, and multi-party service policies as key to achieving concurrent global quantum connectivity with acceptable latency and link strength.
Arqon delivers reliable quantum network service via admission control and scheduling that satisfies defined reliability requirements for accepted demands in static topologies, with O(k^3) and O(N^3) complexity.
New building block and protocol for all-photonic quantum repeaters using repeater graph states that reduces emissive memories at end nodes and integrates with memory-based systems.
citing papers explorer
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A Metropolitan-scale Multiplexed Quantum Repeater with Bell Nonlocality
First metropolitan-scale quantum repeater achieving Bell nonlocality certification over 14.5 km using a new time-measurement multiplexed protocol with 78.6% fidelity.
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Designing a Satellite Serviced Quantum Network Backbone for Concurrent Global Connectivity
Simulations identify anisotropic ground stations, multi-inclination LEO orbits, and multi-party service policies as key to achieving concurrent global quantum connectivity with acceptable latency and link strength.
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Arqon: A suite of control applications enabling a reliable quantum network
Arqon delivers reliable quantum network service via admission control and scheduling that satisfies defined reliability requirements for accepted demands in static topologies, with O(k^3) and O(N^3) complexity.
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Architecture and protocols for all-photonic quantum repeaters
New building block and protocol for all-photonic quantum repeaters using repeater graph states that reduces emissive memories at end nodes and integrates with memory-based systems.