Improving the performance of Twin-Field Quantum Key Distribution

Twin-Field Quantum Key Distribution(TF-QKD) protocol and its variants, e.g., Phase-Matching QKD(PM-QKD), Sending-or-Not QKD and TF-QKD without phase post-selection, can overcome the rate-distance limit without the help of quantum repeaters. Among all of these protocols, the TF-QKD without phase post-selection enjoys higher key rate and simplicity in practice since the post-selection of global phases is removed. However, its achievable distance is shorter compared with the original PM-QKD. In this work, we propose to improve its performance by introducing an additional decoy mode. With the help of this, the upper bound of the information leakage can be estimated more tightly, and then both the key rate and achievable distance are significantly improved. Interestingly, the proposed additional decoy mode does not need phase randomization and work well in finite decoy-state cases, which is quite meaningful in practice.