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Detector Dead-Time Effects and Paralyzability in High-Speed Quantum Key Distribution

Published

Author(s)

Daniel Rogers, Joshua C. Bienfang, Anastase Nakassis, Hai Xu, Charles W. Clark

Abstract

Recent advances in quantum key distribution (QKD) have given rise to systems that operate at transmission periods significantly shorter than the dead times of their component single-photon detectors. As systems continue to increase in transmission rate, security concerns associated with detector dead times can limit the production rate of sifted bits. We present a model of high-speed QKD in this limit that identifies an optimum transmission rate for a system with given link loss and detector response characteristics.
Citation
New Journal of Physics
Volume
9
Issue
319

Keywords

photon counting, quantum communications, quantum cryptography, single-photon detectors

Citation

Rogers, D. , Bienfang, J. , Nakassis, A. , Xu, H. and Clark, C. (2007), Detector Dead-Time Effects and Paralyzability in High-Speed Quantum Key Distribution, New Journal of Physics, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=840271 (Accessed December 22, 2024)

Issues

If you have any questions about this publication or are having problems accessing it, please contact reflib@nist.gov.

Created September 10, 2007, Updated February 17, 2017