Bifunctional acoustic lossy coupler for broadband power splitting and absorption

•A bifunctional acoustic lossy coupler for broadband power splitting and absorption is designed by adiabatic passage.•The propagation paths of the incident waves are verified by numerical simulations and experimental measurements.•A switchable acoustic logic gate with functions of “OR” and “XOR” is...

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Bibliographic Details
Published inApplied acoustics Vol. 228; p. 110274
Main Authors Wang, Rui, Lü, Cheng, Zhan, Jingkun, Zhang, Wencong, Hou, Jiabin, Cui, Guorong, Zhang, Qiang, Han, Jianning, Tang, Shuai
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.01.2025
Subjects
Acoustic waveguide
Energy transfer
Power absorption
Power splitting
Wave propagation
Power splitting
Wave propagation
Power absorption
Acoustic waveguide
Energy transfer
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Summary:•A bifunctional acoustic lossy coupler for broadband power splitting and absorption is designed by adiabatic passage.•The propagation paths of the incident waves are verified by numerical simulations and experimental measurements.•A switchable acoustic logic gate with functions of “OR” and “XOR” is constructed by using the adiabatic coupler. In this work, we propose a bifunctional acoustic lossy coupler for broadband power splitting and absorption. Following the three-level system in quantum physics, the three-waveguide (WG) acoustic system is proposed to obtain efficient energy transfer behaviors. Given the agreement in form between Schr o¨ dinger equation and coupled mode equation, the time-dependent external fields are mapped into space-varying coupling actions between adjacent WGs. The propagation paths of the incident waves can be predicted by Schr o¨ dinger-like equation, which are verified by numerical simulations and experimental measurements. Owing to the different responses to lossy medium in WG B for WG A incidence and WG C incidence, the acoustic coupler can be considered as a broadband power splitter and muffler by selecting different input ports. Meanwhile, according to the reversibility of acoustic path, a switchable acoustic logic gate with functions of “OR” and “XOR” is constructed as well by taking advantage of the lossless adiabatic coupler, and the function can be controlled conveniently by reversing the phase of input waves from WG A or C. Our work provides a new scheme for the design of bifunctional acoustic coupler, which may have a profound impact on the development of non-resonance acoustic high-performance devices.
ISSN:0003-682X
DOI:10.1016/j.apacoust.2024.110274