Privacy amplification by public discussion
SIAM Journal on Computing - Special issue on cryptography
Experimental quantum cryptography
Journal of Cryptology - Eurocrypt '90
Quantum Key Distribution and String Oblivious Transfer in Noisy Channels
CRYPTO '96 Proceedings of the 16th Annual International Cryptology Conference on Advances in Cryptology
Quantum Cryptography with Imperfect Apparatus
FOCS '98 Proceedings of the 39th Annual Symposium on Foundations of Computer Science
Security aspects of practical quantum cryptography
EUROCRYPT'00 Proceedings of the 19th international conference on Theory and application of cryptographic techniques
Generalized self-testing and the security of the 6-state protocol
TQC'10 Proceedings of the 5th conference on Theory of quantum computation, communication, and cryptography
Can quantum cryptography imply quantum mechanics?
Quantum Information & Computation
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We study, in the context of quantum information and quantum communication, a configuration of devices that includes (1) a source of some unknown bipartite quantum state that is claimed to be the Bell state Φ+ and (2) two spatially separated but otherwise unknown measurement apparatus one on each side, that are each claimed to execute an orthogonal measurement at an angle θ ∈ {-π/8, 0, π/8} that is chosen by the user. We show that, if the nine distinct probability distributions that are generated by the self checking configuration, one for each pair of angles, are consistent with the specifications, the source and the two measurement apparatus are guaranteed to be identical to the claimed specifications up to a local change of basis on each side. We discuss the connection with quantum cryptography.