Quantum hacking: Experimental demonstration of time-shift attack against practical quantum-key-distribution systems

Yi Zhao; Chi-Hang F. Fung; Bing Qi; Christine Chen; Hoi-Kwong Lo

Quantum hacking: Experimental demonstration of time-shift attack against practical quantum-key-distribution systems

POSTER

Abstract

Quantum key distribution (QKD) systems can send signals over more than 100 km standard optical fiber and are widely believed to be secure. Here, we show experimentally for the first time a technologically feasible attack, namely the time-shift attack, against a commercial QKD system. Our result shows that, contrary to popular belief, an eavesdropper, Eve, has a non-negligible probability ($\sim$4\%) to break the security of the system. Eve's success is due to the well-known detection efficiency loophole in the experimental testing of Bell inequalities. Therefore, the detection efficiency loophole plays a key role not only in fundamental physics, but also in technological applications such as QKD. Our work is published in [1]. \\[4pt] [1] Y. Zhao, C.-H. F. Fung, B. Qi, C. Chen, and H.-K. Lo, Phys. Rev. A, 78:042333 (2008).

Authors

Yi Zhao
- Center for Quantum Information and Quantum Control, Department of Physics and Department of Electrical \& Computer Engineering, University of Toronto
Chi-Hang F. Fung
- Center for Quantum Information and Quantum Control, Department of Physics and Department of Electrical \& Computer Engineering, University of Toronto
Bing Qi
- Center for Quantum Information and Quantum Control, Department of Physics and Department of Electrical \& Computer Engineering, University of Toronto
Christine Chen
- Center for Quantum Information and Quantum Control, Department of Physics and Department of Electrical \& Computer Engineering, University of Toronto
Hoi-Kwong Lo
- Center for Quantum Information and Quantum Control, Department of Physics and Department of Electrical \& Computer Engineering, University of Toronto