Violating Bell’s inequality with remotely-connected superconducting qubits

  1. Y. P. Zhong,
  2. H.-S. Chang,
  3. K. J. Satzinger,
  4. M.-H. Chou,
  5. A. Bienfait,
  6. C. R. Conner,
  7. É. Dumur,
  8. J. Grebel,
  9. G. A. Peairs,
  10. R. G. Povey,
  11. D.I. Schuster,
  12. and A. N. Cleland
Quantum communication relies on the efficient generation of entanglement between remote quantum nodes, due to entanglement’s key role in achieving and verifying secure communications. Remote entanglement has been realized using a number of different probabilistic schemes, but deterministic remote entanglement has only recently been demonstrated, using a variety of superconducting circuit approaches. However, the deterministic violation of a Bell inequality, a strong measure of quantum correlation, has not to date been demonstrated in a superconducting quantum communication architecture, in part because achieving sufficiently strong correlation requires fast and accurate control of the emission and capture of the entangling photons. Here we present a simple and scalable architecture for achieving this benchmark result in a superconducting system.
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