Overcoming Energy Divergence with High-Order and Directional OAM Pencil Beams

Yufei Zhao; Afkar Mohamed Ismail; Gaohua Ju; Deyu Lin; Yong Liang Guan

doi:10.1109/APMC60911.2024.10867623

Overcoming Energy Divergence with High-Order and Directional OAM Pencil Beams

Yufei Zhao, Afkar Mohamed Ismail, Gaohua Ju, Deyu Lin, Yong Liang Guan

Nanyang Technological University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper presents a novel approach to overcoming energy divergence in wireless communications using high-order and directional Orbital Angular Momentum (OAM) pencil beams. Traditional OAM beams, with their hollow intensity profiles, suffer significant energy dispersion over long distances. To address this, we introduce an innovative OAM transmitter design that generates directional OAM pencil beams without a central energy void, aligning with conventional planar wave antennas' radiation patterns while maintaining OAM wavefront phase variations. Key contributions include a new theory for OAM pencil beams, a method for generating these beams using leaky wave antennas, and an annular cavity waveguide slot antenna for higher-order OAM modes with a compact design. Simulation and test results show that the proposed OAM pencil beams not only exhibit high directional radiation characteristics but also easily achieve higher-order OAM topological modes, providing valuable insights for future advanced communication and detection systems based on OAM waves.

Original language	English
Title of host publication	2024 Asia-Pacific Microwave Conference
Subtitle of host publication	Microwaves for Sustainable Future, APMC 2024
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1296-1298
Number of pages	3
ISBN (Electronic)	9798350363548
DOIs	https://doi.org/10.1109/APMC60911.2024.10867623
Publication status	Published - 2024
Externally published	Yes
Event	2024 IEEE Asia-Pacific Microwave Conference, APMC 2024 - Bali, Indonesia Duration: Nov 17 2024 → Nov 20 2024

Publication series

Name	Asia-Pacific Microwave Conference Proceedings, APMC
ISSN (Electronic)	2690-3946

Conference

Conference	2024 IEEE Asia-Pacific Microwave Conference, APMC 2024
Country/Territory	Indonesia
City	Bali
Period	11/17/24 → 11/20/24

Bibliographical note

Publisher Copyright:
© 2024 IEEE.

ASJC Scopus Subject Areas

Electrical and Electronic Engineering

Keywords

- orbital angular momentum
directional radiation pattern
energy divergence
higher-order topological modes
OAM
pencil beams

Access to Document

10.1109/APMC60911.2024.10867623

Cite this

Zhao, Y., Ismail, A. M., Ju, G., Lin, D., & Guan, Y. L. (2024). Overcoming Energy Divergence with High-Order and Directional OAM Pencil Beams. In 2024 Asia-Pacific Microwave Conference: Microwaves for Sustainable Future, APMC 2024 (pp. 1296-1298). (Asia-Pacific Microwave Conference Proceedings, APMC). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/APMC60911.2024.10867623

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title = "Overcoming Energy Divergence with High-Order and Directional OAM Pencil Beams",

abstract = "This paper presents a novel approach to overcoming energy divergence in wireless communications using high-order and directional Orbital Angular Momentum (OAM) pencil beams. Traditional OAM beams, with their hollow intensity profiles, suffer significant energy dispersion over long distances. To address this, we introduce an innovative OAM transmitter design that generates directional OAM pencil beams without a central energy void, aligning with conventional planar wave antennas' radiation patterns while maintaining OAM wavefront phase variations. Key contributions include a new theory for OAM pencil beams, a method for generating these beams using leaky wave antennas, and an annular cavity waveguide slot antenna for higher-order OAM modes with a compact design. Simulation and test results show that the proposed OAM pencil beams not only exhibit high directional radiation characteristics but also easily achieve higher-order OAM topological modes, providing valuable insights for future advanced communication and detection systems based on OAM waves.",

keywords = "- orbital angular momentum, directional radiation pattern, energy divergence, higher-order topological modes, OAM, pencil beams",

author = "Yufei Zhao and Ismail, {Afkar Mohamed} and Gaohua Ju and Deyu Lin and Guan, {Yong Liang}",

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year = "2024",

doi = "10.1109/APMC60911.2024.10867623",

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Zhao, Y, Ismail, AM, Ju, G, Lin, D & Guan, YL 2024, Overcoming Energy Divergence with High-Order and Directional OAM Pencil Beams. in 2024 Asia-Pacific Microwave Conference: Microwaves for Sustainable Future, APMC 2024. Asia-Pacific Microwave Conference Proceedings, APMC, Institute of Electrical and Electronics Engineers Inc., pp. 1296-1298, 2024 IEEE Asia-Pacific Microwave Conference, APMC 2024, Bali, Indonesia, 11/17/24. https://doi.org/10.1109/APMC60911.2024.10867623

Overcoming Energy Divergence with High-Order and Directional OAM Pencil Beams. / Zhao, Yufei; Ismail, Afkar Mohamed; Ju, Gaohua et al.
2024 Asia-Pacific Microwave Conference: Microwaves for Sustainable Future, APMC 2024. Institute of Electrical and Electronics Engineers Inc., 2024. p. 1296-1298 (Asia-Pacific Microwave Conference Proceedings, APMC).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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AU - Lin, Deyu

AU - Guan, Yong Liang

PY - 2024

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N2 - This paper presents a novel approach to overcoming energy divergence in wireless communications using high-order and directional Orbital Angular Momentum (OAM) pencil beams. Traditional OAM beams, with their hollow intensity profiles, suffer significant energy dispersion over long distances. To address this, we introduce an innovative OAM transmitter design that generates directional OAM pencil beams without a central energy void, aligning with conventional planar wave antennas' radiation patterns while maintaining OAM wavefront phase variations. Key contributions include a new theory for OAM pencil beams, a method for generating these beams using leaky wave antennas, and an annular cavity waveguide slot antenna for higher-order OAM modes with a compact design. Simulation and test results show that the proposed OAM pencil beams not only exhibit high directional radiation characteristics but also easily achieve higher-order OAM topological modes, providing valuable insights for future advanced communication and detection systems based on OAM waves.

AB - This paper presents a novel approach to overcoming energy divergence in wireless communications using high-order and directional Orbital Angular Momentum (OAM) pencil beams. Traditional OAM beams, with their hollow intensity profiles, suffer significant energy dispersion over long distances. To address this, we introduce an innovative OAM transmitter design that generates directional OAM pencil beams without a central energy void, aligning with conventional planar wave antennas' radiation patterns while maintaining OAM wavefront phase variations. Key contributions include a new theory for OAM pencil beams, a method for generating these beams using leaky wave antennas, and an annular cavity waveguide slot antenna for higher-order OAM modes with a compact design. Simulation and test results show that the proposed OAM pencil beams not only exhibit high directional radiation characteristics but also easily achieve higher-order OAM topological modes, providing valuable insights for future advanced communication and detection systems based on OAM waves.

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ER -

Zhao Y, Ismail AM, Ju G, Lin D, Guan YL. Overcoming Energy Divergence with High-Order and Directional OAM Pencil Beams. In 2024 Asia-Pacific Microwave Conference: Microwaves for Sustainable Future, APMC 2024. Institute of Electrical and Electronics Engineers Inc. 2024. p. 1296-1298. (Asia-Pacific Microwave Conference Proceedings, APMC). doi: 10.1109/APMC60911.2024.10867623

Overcoming Energy Divergence with High-Order and Directional OAM Pencil Beams

Abstract

Publication series

Conference

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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