摘要
Round-robin differential phase shift(RRDPS) is a novel quantum key distribution protocol which can bound information leakage without monitoring signal disturbance. In this work, to decrease the effect of the vacuum component in a weak coherent pulses source, we employ a practical decoy-state scheme with heralded singlephoton source for the RRDPS protocol and analyze the performance of this method. In this scheme, only two decoy states are needed and the yields of single-photon state and multi-photon states, as well as the bit error rates of each photon states, can be estimated. The final key rate of this scheme is bounded and simulated over transmission distance. The results show that the two-decoy-state method with heralded single-photon source performs better than the two-decoy-state method with weak coherent pulses.
Round-robin differential phase shift (RRDPS) is a novel quantum key distribution protocol which can bound information leakage without monitoring signal disturbance. In this work, to decrease the effect of the vacuum component in a weak coherent pulses source, we employ a practical decoy-state scheme with heralded singlephoton source for the RRDPS protocol and analyze the performance of this method. In this scheme, only two decoy states are needed and the yields of single-photon state and multi-photon states, as well as the bit error rates of each photon states, can be estimated. The final key rate of this scheme is bounded and simulated over transmission distance. The results show that the two-decoy-state method with heralded single-photon source performs better than the two-decoy-state method with weak coherent pulses.
作者
张莹莹
鲍皖苏
周淳
李宏伟
汪洋
江木生
Ying-Ying Zhang Wan-Su Bao Chun Zhou Hong-Wei Li Yang Wang Mu-Sheng Jiang(Zhengzhou Information Science and Technology Institute, Zhengzhou 450001 Synergetie Innovation Center of Quantum Information and Quantum Physies,University of Science and Technology of China, Hefei 230026)
基金
Supported by the National Basic Research Program of China under Grant No 2013CB338002
the National Natural Science Foundation of China under Grant Nos 11304397 and 61505261
