A review on practical challenges of aerial quantum communication

Q2 Physics and Astronomy

Physics Open Pub Date : 2024-04-03 DOI:10.1016/j.physo.2024.100210

Umang Dubey , Prathamesh Bhole , Arindam Dutta , Dibya Prakash Behera , Vethonulu Losu , Guru Satya Dattatreya Pandeeti , Abhir Raj Metkar , Anindita Banerjee , Anirban Pathak

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Abstract

The increasing demand for the realization of global-scale quantum communication services necessitates critical investigation for a practical quantum secure communication network that relies on full-time all-location coverage. In this direction, the non-terrestrial quantum key distribution is expected to play an important role in providing agility, maneuverability, relay link, on-demand network, and last-mile coverage. In this work, we have summarized the research and development that has happened until now in the domain of quantum communication using non-terrestrial platforms with a specific focus on the associated challenges and the relevant models. Further, to extend the analysis beyond the existing know-how, a hybrid model involving the features of Vasylyev et al.’s model and Liorni et al.’s model is introduced here. The hybrid model entails us adapting a spherical beam to an elliptic beam approximation and effectively capturing the characteristics of transmittance in densely humid weather conditions and at low altitudes.

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航空量子通信的实际挑战综述

实现全球规模量子通信服务的需求日益增长，因此有必要对依赖全时全地覆盖的实用量子安全通信网络进行关键研究。在这个方向上，非地面量子密钥分发有望在提供敏捷性、机动性、中继链路、按需网络和最后一英里覆盖方面发挥重要作用。在这项工作中，我们总结了迄今为止利用非地面平台进行量子通信领域的研究和开发情况，重点关注相关挑战和相关模型。此外，为了将分析扩展到现有技术之外，我们在此引入了一个混合模型，其中包含 Vasylyev 等人的模型和 Liorni 等人的模型。该混合模型要求我们将球形光束调整为椭圆形光束近似值，并有效捕捉到密集潮湿天气条件下和低海拔地区的透射率特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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