Fabian Furrer, Torsten Franz, Mario Berta, Anthony Leverrier, Volkher B. Scholz, Marco Tomamichel, Reinhard F. Werner
We provide a security analysis for continuous variable quantum key distribution protocols based on the transmission of squeezed vacuum states measured via homodyne detection. We employ a version of the entropic uncertainty relation for smooth entropies to give a lower bound on the number of secret bits which can be extracted from a finite number of runs of the protocol. This bound is valid under general coherent attacks, and gives rise to keys which are composably secure. For comparison, we also give a lower bound valid under the assumption of collective attacks. For both scenarios, we find positive key rates using experimental parameters reachable today.
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http://arxiv.org/abs/1112.2179
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