恒定波束半径的OAM波束的产生

IF 3.7 3区计算机科学 Q2 TELECOMMUNICATIONS

IEEE Communications Letters Pub Date : 2024-10-31 DOI:10.1109/LCOMM.2024.3489276

Muyao Wang;Runyu Lyu;Hailin Zhang

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引用次数: 0

摘要

轨道角动量（OAM）在下一代无线通信中的应用是近年来研究的热点。OAM极高的频谱效率对于满足未来的无线通信需求至关重要。然而，基于oam的无线通信面临着空心发散效应的重大挑战，它降低了接收功率和信号完整性。本文提出了一种利用发射阵列对OAM波束进行聚焦以消除发散的方法。我们提出的方法在接收器周围的特定公差范围内产生近似理想的OAM （a -OAM）波束。与传统的发散OAM （D-OAM）相比，A-OAM波束在其公差范围内不发散。具体而言，我们首先通过研究A-OAM的传播特性，提出了A-OAM的聚焦方法和系统模型。然后，我们通过6 ~ 14米的模拟来评估聚焦方法。结果与我们的理论预期一致。A-OAM能够远距离同时接收多个OAM模式，显著增强基于OAM的无线通信的鲁棒性。

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Generation of OAM Beams With Constant Beam Radius

The utilisation of orbital angular momentum (OAM) in next-generation wireless communication has become a research focus in recent years. The extremely high spectral efficiency of OAM is crucial for meeting future wireless communication demands. However, OAM-based wireless communication faces a significant challenge known as the hollow divergence effect, which reduces received power and signal integrity. This letter proposes a method to focus the OAM beam using the transmitting array to eliminate the divergence. Our proposed method generates an approximate ideal OAM (A-OAM) beam within a specific tolerance range around the receiver. Compared to traditional diverging OAM (D-OAM), the A-OAM beam does not diverge within its tolerance range. Specifically, we first propose the focusing method and system model for A-OAM by investigating its propagation characteristics. Then, we evaluate the focusing method through simulations ranging from 6 to 14 metres. The results are consistent with our theoretical expectations. A-OAM enables the simultaneous reception of multiple OAM modes over long distances, significantly enhancing the robustness of OAM-based wireless communication.

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来源期刊

IEEE Communications Letters 工程技术-电信学

CiteScore

8.10

自引率

7.30%

发文量

590

审稿时长

2.8 months

期刊介绍： The IEEE Communications Letters publishes short papers in a rapid publication cycle on advances in the state-of-the-art of communication over different media and channels including wire, underground, waveguide, optical fiber, and storage channels. Both theoretical contributions (including new techniques, concepts, and analyses) and practical contributions (including system experiments and prototypes, and new applications) are encouraged. This journal focuses on the physical layer and the link layer of communication systems.