Security proof of quantum key distribution with detection efficiency mismatch

Chi Hang Fred Fung; Kiyoshi Tamaki; Bing Qi; Hoi Kwong Lo; Ma Xiongfeng

doi:10.26421/qic9.1-2-8

Security proof of quantum key distribution with detection efficiency mismatch

Chi Hang Fred Fung, Kiyoshi Tamaki, Bing Qi, Hoi Kwong Lo, Ma Xiongfeng

Intellectual Information Engineering

Research output: Contribution to journal › Article › peer-review

102 Scopus citations

Abstract

In theory, quantum key distribution (QKD) offers unconditional security based on the laws of physics. However, as demonstrated in recent quantum hacking theory and experimental papers, detection efficiency loophole can be fatal to the security of practical QKD systems. Here, we describe the physical origin of detection efficiency mismatch in various domains including spatial, spectral, and time domains and in various experimental set-ups. More importantly, we prove the unconditional security of QKD even with detection efficiency mismatch. We explicitly show how the key generation rate is characterized by the maximal detection efficiency ratio between the two detectors. Furthermore, we prove that by randomly switching the bit assignments of the detectors, the effect of detection efficiency mismatch can be completely eliminated.

Original language	English
Pages (from-to)	131-165
Number of pages	35
Journal	Quantum Information and Computation
Volume	9
Issue number	1-2
DOIs	https://doi.org/10.26421/qic9.1-2-8
State	Published - 2009/01/01

Keywords

Detection efficiency mismatch
Quantum cryptography
Quantum key distribution
Security proof

ASJC Scopus subject areas

Theoretical Computer Science
Statistical and Nonlinear Physics
Nuclear and High Energy Physics
Mathematical Physics
General Physics and Astronomy
Computational Theory and Mathematics

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10.26421/qic9.1-2-8

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title = "Security proof of quantum key distribution with detection efficiency mismatch",

abstract = "In theory, quantum key distribution (QKD) offers unconditional security based on the laws of physics. However, as demonstrated in recent quantum hacking theory and experimental papers, detection efficiency loophole can be fatal to the security of practical QKD systems. Here, we describe the physical origin of detection efficiency mismatch in various domains including spatial, spectral, and time domains and in various experimental set-ups. More importantly, we prove the unconditional security of QKD even with detection efficiency mismatch. We explicitly show how the key generation rate is characterized by the maximal detection efficiency ratio between the two detectors. Furthermore, we prove that by randomly switching the bit assignments of the detectors, the effect of detection efficiency mismatch can be completely eliminated.",

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PY - 2009/1/1

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N2 - In theory, quantum key distribution (QKD) offers unconditional security based on the laws of physics. However, as demonstrated in recent quantum hacking theory and experimental papers, detection efficiency loophole can be fatal to the security of practical QKD systems. Here, we describe the physical origin of detection efficiency mismatch in various domains including spatial, spectral, and time domains and in various experimental set-ups. More importantly, we prove the unconditional security of QKD even with detection efficiency mismatch. We explicitly show how the key generation rate is characterized by the maximal detection efficiency ratio between the two detectors. Furthermore, we prove that by randomly switching the bit assignments of the detectors, the effect of detection efficiency mismatch can be completely eliminated.

AB - In theory, quantum key distribution (QKD) offers unconditional security based on the laws of physics. However, as demonstrated in recent quantum hacking theory and experimental papers, detection efficiency loophole can be fatal to the security of practical QKD systems. Here, we describe the physical origin of detection efficiency mismatch in various domains including spatial, spectral, and time domains and in various experimental set-ups. More importantly, we prove the unconditional security of QKD even with detection efficiency mismatch. We explicitly show how the key generation rate is characterized by the maximal detection efficiency ratio between the two detectors. Furthermore, we prove that by randomly switching the bit assignments of the detectors, the effect of detection efficiency mismatch can be completely eliminated.

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Security proof of quantum key distribution with detection efficiency mismatch

Abstract

Keywords

ASJC Scopus subject areas

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