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Reliable Entropy Estimation from Observed Statistics for Device-Independent Quantum Cryptography

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arxiv 2411.04858 v2 pith:FTXACMGE submitted 2024-11-07 quant-ph

Reliable Entropy Estimation from Observed Statistics for Device-Independent Quantum Cryptography

classification quant-ph
keywords entropyquantumboundscryptographydevice-independentframeworkhierarchymethod
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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This paper introduces a numerical framework for establishing lower bounds on the conditional von-Neumann entropy in device-independent quantum cryptography and randomness extraction scenarios. Leveraging a hierarchy of semidefinite programs derived from the Navascu\'es-Pironio-Acin (NPA) hierarchy, our tool enables efficient computation of entropy bounds based solely on observed statistics, assuming the validity of quantum mechanics. The method's computational efficiency is ensured by its reliance on projective operators within the non-commutative polynomial optimization problem. The method facilitates provable bounds for extractable randomness in noisy scenarios and aligns with modern entropy accumulation theorems. Consequently, the framework offers an adaptable tool for practical quantum cryptographic protocols, expanding secure communication possibilities in untrusted environments.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Device-independent Quantum Key Distribution in the commuting operator framework

    quant-ph 2026-07 accept novelty 7.0

    DIQKD key rates are rigorously computable via NPA hierarchies in the commuting-operator framework after a POVM-to-PVM dilation and a von Neumann-algebra Frenkel integral for relative entropy.