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Telecom-Wavelength Quantum Repeater Node Based on a Trapped-Ion Processor

V. Krutyanskiy, M. Canteri, Martin Meraner, J. Bate, Vojtech Krcmarsky, Josef Schupp, Nicolas Sangouard, B. P. Lanyon

2023Physical Review Letters102 citationsDOI

Abstract

A quantum repeater node is presented based on trapped ions that act as single-photon emitters, quantum memories, and an elementary quantum processor. The node's ability to establish entanglement across two 25-km-long optical fibers independently, then to swap that entanglement efficiently to extend it over both fibers, is demonstrated. The resultant entanglement is established between telecom-wavelength photons at either end of the 50 km channel. Finally, the system improvements to allow for repeater-node chains to establish stored entanglement over 800 km at hertz rates are calculated, revealing a near-term path to distributed networks of entangled sensors, atomic clocks, and quantum processors.

Topics & Concepts

Repeater (horology)WavelengthTelecommunicationsNode (physics)QuantumComputer scienceOptoelectronicsPhysicsQuantum mechanicsEncoding (memory)Artificial intelligenceQuantum Information and CryptographyQuantum optics and atomic interactionsQuantum Computing Algorithms and Architecture
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