Zhengyu Li scite author profile

We propose a continuous-variable measurement-device-independent quantum key distribution (CV-MDI QKD) protocol, in which detection is conducted by an untrusted third party. Our protocol can defend all detector side channels, which seriously threaten the security of a practical CV QKD system. Its security analysis against arbitrary collective attacks is derived based on the fact that the entanglement-based scheme of CV-MDI QKD is equivalent to the conventional CV QKD with coherent states and heterodyne detection. We find that the maximal total transmission distance is achieved by setting the untrusted third party close to one of the legitimate users. Furthermore, an alternate detection scheme, a special application of CV-MDI QKD, is proposed to enhance the security of the standard CV QKD system.

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Improvement of two-way continuous-variable quantum key distribution using optical amplifiers

Zhang

Weedbrook

et al. 2014

J. Phys. B: At. Mol. Opt. Phys.

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The imperfections of a receiver's detector affect the performance of twoway continuous-variable quantum key distribution protocols and are difficult to adjust in practical situations. We propose a method to improve the performance of twoway continuous-variable quantum key distribution by adding a parameter-adjustable optical amplifier at the receiver. A security analysis is derived against a two-mode collective entangling cloner attack. Our simulations show that the proposed method can improve the performance of protocols as long as the inherent noise of the amplifier is lower than a critical value, defined as the tolerable amplifier noise. Furthermore, the optimal performance can approach the scenario where a perfect detector is used.

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Zhengyu Li

Continuous-variable measurement-device-independent quantum key distribution

Improvement of two-way continuous-variable quantum key distribution using optical amplifiers

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