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arxiv: 2302.13928 · v2 · pith:4UBXEOTU · submitted 2023-02-27 · quant-ph

Robustness of implemented device-independent protocols against constrained leakage

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classification quant-ph
keywords leakageconstraineddemonstrationsprotocolsrecentamountanalyzingassumption
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Device-independent (DI) protocols have experienced significant progress in recent years, with a series of demonstrations of DI randomness generation or expansion, as well as DI quantum key distribution. However, existing security proofs for those demonstrations rely on a typical assumption in DI cryptography, that the devices do not leak any unwanted information to each other or to an adversary. This assumption may be difficult to perfectly enforce in practice. While there exist other DI security proofs that account for a constrained amount of such leakage, the techniques used are somewhat unsuited for analyzing the recent DI protocol demonstrations. In this work, we address this issue by studying a constrained leakage model suited for this purpose, which should also be relevant for future similar experiments. Our proof structure is compatible with recent proof techniques for flexibly analyzing a wide range of DI protocol implementations. With our approach, we compute some estimates of the effects of leakage on the keyrates of those protocols, hence providing a clearer understanding of the amount of leakage that can be allowed while still obtaining positive keyrates.

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Cited by 2 Pith papers

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

  1. Quantum Nonlocality and Device-Independent Randomness are Robust to Noisy Signaling Channels

    quant-ph 2026-05 unverdicted novelty 6.0

    Bell inequalities certify non-signaling quantum correlations and DI randomness under noisy signaling channels, remaining robust even with near-perfect input copies.

  2. Device-independent quantum cryptography with input leakage

    quant-ph 2026-04 unverdicted novelty 6.0

    Quantifies certifiable local randomness and secret key rates in CHSH-based device-independent protocols under partial input leakage modeled by a noisy channel.