Integration of QKD Channels to Classical High-speed Optical Communication Networks

被引：4

作者：

Udvary, Eszter ^{[1
]}

机构：

[1] Budapest Univ Technol & Econ, Dept Networked Syst & Serv, Budapest, Hungary

来源：

INFOCOMMUNICATIONS JOURNAL | 2023年 / 15卷 / 04期

基金：

匈牙利科学研究基金会;

关键词：

Optical fiber communication; Quantum communication; Quantum key distribution; Wavelength division multiplexing; Optical fiber networks; Optical fibers; Raman scattering; QUANTUM KEY DISTRIBUTION;

D O I：

10.36244/ICJ.2023.4.1

中图分类号：

TN [电子技术、通信技术];

学科分类号：

0809 ;

摘要：

Integrating Quantum Key Distribution service with classical high-speed optical data transmission using a dense wavelength division multiplexing technique in a fiber is a cost-effective solution to improve the network's security. In this multichannel system, several noise sources degrade the quality of the quantum channel. The dominant degradation effect is determined by modeling in different cases. Optical filtering cannot decrease spontaneous Raman Scattering caused by the classical optical channels. So this nonlinear optical effect is investigated in detail with different system parameter setups. The optimal channel allocation and the required bandgap between the classical and quantum channels are determined.

引用

页码：2 / 9

页数：8

共 23 条

[1]

Chandra . D., Et al., On the Road to Quantum Communications, Infocommunications Journal, XIV, 3, pp. 2-8, (2022)

[2]

Ciurana A., Et al., Entanglement Distribution in Optical Networks, IEEE Journal of Selected Topics in Quantum Electronics, 21, 3, (2015)

[3]

Qi Bing, Et al., Feasibility of quantum key distribution through a dense wavelength division multiplexing network, New Journal of Physics, 12, (2010)

[4]

Martelli P., Et al., Integration of QKD in WDM networks, International Conference on Optical Network Design and Modeling (ONDM)

[5]

Karinou F., Et al., Toward the Integration of CV Quantum Key Distribution in Deployed Optical Networks, IEEE Photonics Technology Letters, 30, 7, pp. 650-653, (2018)

[6]

Kobor David, Udvary Eszter, Optimisation of Optical Network for Continuous-Variable Quantum Key Distribution by Means of Simulation, Infocommunications Journal, XII, 2, pp. 18-24, (2020)

[7]

Frohlich B., Et al., Quantum secured gigabit optical access networks, Scientific Reports, 5, 18121, pp. 1-7, (2016)

[8]

Pham T. A., Et al., Quantum Key Distribution over Hybrid Fiber-Wireless System for Mobile Networks, International Symposium on Information and Communication Technology, pp. 236-241, (2019)

[9]

Zavitsanos D., Et al., On the QKD Integration in Converged Fiber/ Wireless Topologies for Secured, Low-Latency 5G/B5G Fronthaul, Applied Sciences, 10, 15, pp. 1-21, (2020)

[10]

Zhang Q., Et al., Large scale quantum key distribution: challenges and solutions [Invited], Optics Express, 26, 18, pp. 24260-24273, (2018)

← 1 2 3 →