Measurement-device-independent quantum key distribution with odd coherent state

Dong Chen; Zhao Shang-Hong; Zhao Wei-Hu

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Measurement-device-independent quantum key distribution with odd coherent state

机译：具有奇相干态的与测量设备无关的量子密钥分配

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Measurement-device-independent quantum key distribution (MDI-QKD) is immune to all the detection attacks, thus when it is combined with the decoy-state method, the final key rate can be obtained by estimating the gain and quantum bit error rate for various input photon numbers. In this paper, we propose to perform MDI-QKD with odd coherent state (OCS) and compare the results with weak coherent source scenario. Our simulation indicates that both the secure key rate and transmission distance can be improved evidently with OCS owing to the lower probability of multi-photon events of the OCS. Furthermore, we apply the finite key analysis to the decoy-state MDI-QKD with OCS and obtain a practical key rate.

机译：与测量设备无关的量子密钥分配（MDI-QKD）不受所有检测攻击的影响，因此，当与诱饵状态方法结合使用时，可以通过估算增益和量子比特误码率来获得最终密钥率。各种输入光子数。在本文中，我们建议在奇相干态（OCS）下执行MDI-QKD，并将结果与弱相干源方案进行比较。我们的仿真表明，由于OCS的多光子事件的概率较低，因此使用OCS可以显着提高安全密钥率和传输距离。此外，我们将有限密钥分析应用于带有OCS的诱饵状态MDI-QKD并获得实用的密钥率。

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《Journal of Modern Optics》 |2014年第16期|共5页
作者
Dong Chen; Zhao Shang-Hong; Zhao Wei-Hu;
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正文语种 eng
中图分类光学;
关键词
measurement-device-independent; quantum key distribution; odd coherent state;

机译：独立于测量设备;量子密钥分配;奇数相干态;
入库时间 2022-08-19 02:23:32

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1. Measurement-device-independent quantum key distribution with odd coherent state [J] . Dong Chen, Zhao Shang-Hong, Zhao Wei-Hu Journal of Modern Optics . 2014,第15a16期

机译：具有奇相干态的与测量设备无关的量子密钥分配
2. Improving the performance of four-intensity decoy-state measurement-device-independent quantum key distribution via heralded pair-coherent sources [J] . Mao Chen-Chen, Zhang Chun-Hui, Zhang Chun-Mei, Quantum information processing . 2019,第9期

机译：通过预示着对相干源改善四强溃疡状态测量装置无关量子密钥分布的性能
3. Continuous-variable measurement-device-independent quantum key distribution: Composable security against coherent attacks [J] . Cosmo Lupo, Carlo Ottaviani, Panagiotis Papanastasiou, Physical Review, A . 2018,第5aPta1期

机译：连续变量测量 - 无关的量子密钥分布：可组合安全防止相干攻击
4. Simplifying Measurement-Device-Independent Quantum Key Distribution with Directly Modulated Laser Sources [C] . R. I. Woodward, Y. S. Lo, M. Pittaluga, Optical Fiber Communications Conference and Exhibition . 2021

机译：使用直接调制的激光源简化测量 - 设备无关的量子密钥分布
5. Experimental realization of decoy state polarization encoding measurement-device-independent quantum key distribution. [D] . Liao, Zhongfa. 2013

机译：诱饵状态极化编码与测量设备无关的量子密钥分布的实验实现。
6. N-dimensional measurement-device-independent quantum key distribution with N + 1 un-characterized sources: zero quantum-bit-error-rate case [O] . Won-Young Hwang, Hong-Yi Su, Joonwoo Bae -1

机译：具有N + 1个未表征源的N维测量设备无关的量子密钥分布：零量子误码率情况
7. Composable security analysis of continuous-variable measurement-device-independent quantum key distribution with squeezed states for coherent attacks [O] . Ziyang Chen, Yichen Zhang, Gan Wang, 2018

机译：连续变量测量 - 设备无关的量子密钥分布的可组合安全性分析，具有挤压状态为连贯攻击

Measurement-device-independent quantum key distribution with odd coherent state

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