npj Quantum Information (Oct 2022)

Experimental demonstration of entanglement delivery using a quantum network stack

  • M. Pompili,
  • C. Delle Donne,
  • I. te Raa,
  • B. van der Vecht,
  • M. Skrzypczyk,
  • G. Ferreira,
  • L. de Kluijver,
  • A. J. Stolk,
  • S. L. N. Hermans,
  • P. Pawełczak,
  • W. Kozlowski,
  • R. Hanson,
  • S. Wehner

DOI
https://doi.org/10.1038/s41534-022-00631-2
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 10

Abstract

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Abstract Scaling current quantum communication demonstrations to a large-scale quantum network will require not only advancements in quantum hardware capabilities, but also robust control of such devices to bridge the gap in user demand. Moreover, the abstraction of tasks and services offered by the quantum network should enable platform-independent applications to be executed without the knowledge of the underlying physical implementation. Here we experimentally demonstrate, using remote solid-state quantum network nodes, a link layer, and a physical layer protocol for entanglement-based quantum networks. The link layer abstracts the physical-layer entanglement attempts into a robust, platform-independent entanglement delivery service. The system is used to run full state tomography of the delivered entangled states, as well as preparation of a remote qubit state on a server by its client. Our results mark a clear transition from physics experiments to quantum communication systems, which will enable the development and testing of components of future quantum networks.