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Area of Science:

  • Quantum Information Theory
  • Quantum Foundations
  • Multiparty Quantum Systems

Background:

  • Multiparty Bell nonlocality differs from standard single-source Bell nonlocality.
  • Full network nonlocality (FNN) characterizes quantum correlations unachievable by local-nonlocal models.
  • Previous FNN demonstrations were limited to specific network structures and measurement settings.

Purpose of the Study:

  • To demonstrate FNN in more general network scenarios.
  • To introduce novel network inequalities for detecting FNN.
  • To propose experimentally feasible methods for certifying distributed quantum nonlocality.

Main Methods:

  • Demonstration that many existing network inequalities do not exhibit FNN.
  • Introduction of arbitrary-party and unbounded-input network inequalities for star-shaped and linear-chain networks.
  • Analytic derivation of optimal quantum violations for these inequalities.

Main Results:

  • Identified a class of network inequalities that do not exhibit FNN.
  • Developed new inequalities whose optimal quantum violation demonstrates FNN.
  • Showcased that FNN can be certified with simpler experimental setups (two-output measurements).

Conclusions:

  • The developed inequalities provide a robust method for detecting genuine distributed nonlocality in quantum networks.
  • The findings advance the understanding of multiparty quantum correlations and their experimental verification.
  • The approach facilitates device-independent self-testing of quantum devices.