The Realization of One-to-Two-Port Beam Division in a Five-Channel Acoustic System

Rui Wang; Zhicheng Xu; Shuai Tang; Wencong Zhang; Jiabin Hou; Haipeng Cui; Yang Liu

doi:10.3390/e27090949

The Realization of One-to-Two-Port Beam Division in a Five-Channel Acoustic System

Rui Wang
, Zhicheng Xu
, Shuai Tang^*
, Wencong Zhang
, Jiabin Hou
, Haipeng Cui
, Yang Liu

^*Corresponding author for this work

Shandong Jiaotong University
China Aerospace Science and Technology Corporation
School of Information Science and Engineering, Harbin Institute of Technology Weihai
Ltd.
Harbin Institute of Technology
School of Ocean Engineering, Harbin Institute of Technology Weihai
Ltd.

Research output: Contribution to journal › Article › peer-review

Abstract

In this work, one-to-two-port beam division is achieved in a five-channel acoustic system. The adjacent composing channels are connected by space-varying air slits, thus realizing quantum-like adiabatic energy transfer. Equal-weight beam splitting with opposite phases from two different output ports is obtained in a broadband signal of 6 kHz-10.5 kHz. In addition, owing to the existence of distinct evolution paths, one-way beam division is exhibited when a certain loss is evenly exerted inside the system. Furthermore, one-to-m-port beam division can also be achieved by extending the composing channels, thus making it possible to construct an asymmetric acoustic beam splitter. The simulated results verify that the incident waves can be split into opposite directions unidirectionally, which may have potential applications in concealed information transmission and eavesdropping.

Original language	English
Article number	949
Journal	Entropy
Volume	27
Issue number	9
DOIs	https://doi.org/10.3390/e27090949
State	Published - Sep 2025
Externally published	Yes

Keywords

acoustic system
adiabatic transfer
beam division

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10.3390/e27090949

Cite this

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title = "The Realization of One-to-Two-Port Beam Division in a Five-Channel Acoustic System",

abstract = "In this work, one-to-two-port beam division is achieved in a five-channel acoustic system. The adjacent composing channels are connected by space-varying air slits, thus realizing quantum-like adiabatic energy transfer. Equal-weight beam splitting with opposite phases from two different output ports is obtained in a broadband signal of 6 kHz-10.5 kHz. In addition, owing to the existence of distinct evolution paths, one-way beam division is exhibited when a certain loss is evenly exerted inside the system. Furthermore, one-to-m-port beam division can also be achieved by extending the composing channels, thus making it possible to construct an asymmetric acoustic beam splitter. The simulated results verify that the incident waves can be split into opposite directions unidirectionally, which may have potential applications in concealed information transmission and eavesdropping.",

keywords = "acoustic system, adiabatic transfer, beam division",

author = "Rui Wang and Zhicheng Xu and Shuai Tang and Wencong Zhang and Jiabin Hou and Haipeng Cui and Yang Liu",

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year = "2025",

month = sep,

doi = "10.3390/e27090949",

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volume = "27",

journal = "Entropy",

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T1 - The Realization of One-to-Two-Port Beam Division in a Five-Channel Acoustic System

AU - Wang, Rui

AU - Xu, Zhicheng

AU - Tang, Shuai

AU - Zhang, Wencong

AU - Hou, Jiabin

AU - Cui, Haipeng

AU - Liu, Yang

PY - 2025/9

Y1 - 2025/9

N2 - In this work, one-to-two-port beam division is achieved in a five-channel acoustic system. The adjacent composing channels are connected by space-varying air slits, thus realizing quantum-like adiabatic energy transfer. Equal-weight beam splitting with opposite phases from two different output ports is obtained in a broadband signal of 6 kHz-10.5 kHz. In addition, owing to the existence of distinct evolution paths, one-way beam division is exhibited when a certain loss is evenly exerted inside the system. Furthermore, one-to-m-port beam division can also be achieved by extending the composing channels, thus making it possible to construct an asymmetric acoustic beam splitter. The simulated results verify that the incident waves can be split into opposite directions unidirectionally, which may have potential applications in concealed information transmission and eavesdropping.

AB - In this work, one-to-two-port beam division is achieved in a five-channel acoustic system. The adjacent composing channels are connected by space-varying air slits, thus realizing quantum-like adiabatic energy transfer. Equal-weight beam splitting with opposite phases from two different output ports is obtained in a broadband signal of 6 kHz-10.5 kHz. In addition, owing to the existence of distinct evolution paths, one-way beam division is exhibited when a certain loss is evenly exerted inside the system. Furthermore, one-to-m-port beam division can also be achieved by extending the composing channels, thus making it possible to construct an asymmetric acoustic beam splitter. The simulated results verify that the incident waves can be split into opposite directions unidirectionally, which may have potential applications in concealed information transmission and eavesdropping.

KW - acoustic system

KW - adiabatic transfer

KW - beam division

UR - https://www.scopus.com/pages/publications/105017100092

U2 - 10.3390/e27090949

DO - 10.3390/e27090949

M3 - 文章

AN - SCOPUS:105017100092

SN - 1099-4300

VL - 27

JO - Entropy

JF - Entropy

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ER -

The Realization of One-to-Two-Port Beam Division in a Five-Channel Acoustic System

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