Derives robust device-independent self-testing and two-bit certified randomness from the optimal quantum violation of the arbitrary-input chained Bell inequality via a dimension-independent sum-of-squares technique.
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The Svetlichny Bell operator yields stronger lower bounds on GHZ-state fidelity than the MABK operator under noisy statistics.
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Robust self-testing and certified randomness based on chained Bell inequality
Derives robust device-independent self-testing and two-bit certified randomness from the optimal quantum violation of the arbitrary-input chained Bell inequality via a dimension-independent sum-of-squares technique.
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Probing the robustness of various self-testing protocols for mulipartite entangled states
The Svetlichny Bell operator yields stronger lower bounds on GHZ-state fidelity than the MABK operator under noisy statistics.