The security analysis of E91 protocol in collective-rotation noise channel-Reference-Cited by-同舟云学术

The security analysis of E91 protocol in collective-rotation noise channel

Published:2018-05 Issue:5 Volume:14 Page:155014771877819
ISSN:1550-1477
Container-title:International Journal of Distributed Sensor Networks
language:en
Short-container-title:International Journal of Distributed Sensor Networks

Author:

Li Leilei¹,Li Hengji¹,Li Chaoyang¹,Chen Xiubo²,Chang Yan³,Yang Yuguang⁴,Li Jian¹^ORCID

Affiliation:

1. School of Computer Science, Beijing University of Posts and Telecommunications, Beijing, China

2. School of Cyberspace Security, Beijing University of Posts and Telecommunications, Beijing, China

3. Department of Network Engineering, Chengdu University of Information Technology, Chengdu, China

4. College of Computer Science and Technology, Beijing University of Technology, Beijing, China

Abstract

The bit error in quantum communication is mainly caused by eavesdropping and noise. However, most quantum communication protocols only take eavesdropping into consideration and ignore the result of noise, making the inaccuracy situations in detecting the eavesdropper. To analyze the security of the quantum E91 protocol presented by Ekert in collective-rotation noise channel, an excellent model of noise analysis is proposed. The increment of the qubits error rate (ber) is used to detect eavesdropping. In our analysis, eavesdropper (Eve) can maximally get about 50% of the key from the communication when the noise level approximates to 0.5. The results show that in the collective-rotation noise environment, E91 protocol is secure and the raw key is available just as we have knew and proved. We also presented a new idea in analyzing the protocol security in noise channel.

Funder

National Natural Science Foundation of China

Publisher

SAGE Publications

Subject

Computer Networks and Communications,General Engineering

Link

http://journals.sagepub.com/doi/pdf/10.1177/1550147718778192

Reference28 articles.

1. One Step Quantum Key Distribution Based on EPR Entanglement

2. Practical Quantum Private Database Queries Based on Passive Round-Robin Differential Phase-shift Quantum Key Distribution

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