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A High‐<i>Q</i> Electric‐Mechano‐Magnetic Coupled Resonator for ELF/SLF Cross‐Medium Magnetic Communication

Jianglei Chang, Zhuangzhuang He, Shupeng Xu, Xinyi Zheng, Wei Peng, Penghong Ci, Bin Wang, Chunli Zhang, Shuxiang Dong

2023Advanced Materials21 citationsDOI

Abstract

Extremely/super low frequency (ELF/SLF) electromagnetic wave can effectively propagate in the harsh cross-medium environment where a high-frequency electromagnetic wave cannot pass due to the fast decay. For efficiently transmitting a strong ELF/SLF radiation signal, the traditional electromagnetic antenna requires a super-large loop (>10 km). To address this issue, in this work, a piezoelectric ceramic/ferromagnetic heterogeneous structured, cantilever beam-type electric-mechano-magnetic coupled resonator at only centimeter scale for ELF/SLF cross-medium magnetic communication is reported. Through designing hard-soft hybrid step-stiffness elastic beam, the resonator exhibits a much higher quality factor Q (≈240) for ELF/SLF magnetic field transmitting, which is one to five orders of magnitude higher than those of previously reported mechanical antennas and loop coil antennas. Moreover, the resonator exhibits a 5000 times higher magnetic field emitting efficiency compared to a conventional loop coil antenna in ELF/SLF band. It also demonstrates a 200% increase in magnetic field emitting capacity compared to existing piezoelectric-driven antennas. In addition, an ASK+PSK modulation method is proposed for suppressing relaxation time of the resonator, and a reduction in the relaxation time by 80% is observed. Furthermore, an air-seawater cross-medium magnetic field communication is successful demonstrated, indicating its potential as portable, high-efficient antenna for underwater and underground communications.

Topics & Concepts

ResonatorElectromagnetic coilMaterials scienceAntenna (radio)Magnetic fieldAcousticsOptoelectronicsElectrical engineeringPhysicsEngineeringQuantum mechanicsAntenna Design and AnalysisAcoustic Wave Resonator TechnologiesAdvanced Antenna and Metasurface Technologies