Asymptotic correctability of Bell-diagonal qudit states and lower bounds on tolerable error probabilities in quantum cryptography

Kedar S. Ranade; G. Alber

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Аннотация: The concept of asymptotic correctability of Bell-diagonal quantum states is generalized to elementary quantum systems of higher dimensions. Based on these results basic properties of quantum state purification protocols are investigated which are capable of purifying tensor products of Bell-diagonal states and which are based on B-steps of the Gottesman-Lo-type with the subsequent application of a Calderbank–Shor–Steane quantum code. Consequences for maximum tolerable error rates of quantum cryptographic protocols are discussed.

Год издания: 2006

Авторы: Kedar S. Ranade, G. Alber

Издательство: Institute of Physics

Источник: Journal of Physics A Mathematical and Theoretical

Ключевые слова: Quantum Computing Algorithms and Architecture, Quantum Information and Cryptography, Quantum-Dot Cellular Automata

Другие ссылки: Journal of Physics A Mathematical and Theoretical (HTML)
arXiv (Cornell University) (HTML)
DataCite API (HTML)

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