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Literature DB >> 17025944

From Bell's theorem to secure quantum key distribution.

Antonio Acín¹, Nicolas Gisin, Lluis Masanes.

Abstract

The first step in any quantum key distribution (QKD) protocol consists of sequences of measurements that produce correlated classical data. We show that these correlation data must violate some Bell inequality in order to contain distillable secrecy, if not they could be produced by quantum measurements performed on a separable state of larger dimension. We introduce a new QKD protocol and prove its security against any individual attack by an adversary only limited by the no-signaling condition.

Year: 2006 PMID： 17025944 DOI： 10.1103/PhysRevLett.97.120405

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

19 in total

10. N-dimensional measurement-device-independent quantum key distribution with N + 1 un-characterized sources: zero quantum-bit-error-rate case.

Authors: Won-Young Hwang; Hong-Yi Su; Joonwoo Bae
Journal: Sci Rep Date: 2016-07-25 Impact factor: 4.379

From Bell's theorem to secure quantum key distribution.

1. Information causality as a physical principle.

2. Secure device-independent quantum key distribution with causally independent measurement devices.

3. Certified randomness in quantum physics.

4. The ultimate physical limits of privacy.

Review 5. Analysing causal structures with entropy.

6. Experimental quantum key distribution certified by Bell's theorem.

Review 7. Quantum Oblivious Transfer: A Short Review.

8. Secure and robust transmission and verification of unknown quantum states in Minkowski space.

9. Optimal Device Independent Quantum Key Distribution.

10. N-dimensional measurement-device-independent quantum key distribution with N + 1 un-characterized sources: zero quantum-bit-error-rate case.