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Bias-free very low frequency magnetoelectric antenna

Shifeng Fu, Jiawei Cheng, Tao Jiang, Hanzhou Wu, Ze Fang, Jie Jiao, Oleg Sokolov, Sergey Ivanov, М. И. Бичурин, Yaojin Wang

2023Applied Physics Letters41 citationsDOI

Abstract

A rapid surge in the research on very low frequency (VLF) antennas is occurring due to the demand for radio navigation and special environment communications such as underwater and underground applications. Among them, magnetoelectric (ME) antennas have recently proven to be a prospective solution for miniaturization of VLF communication systems. However, the essential magnetic bias fields (Hdc) lead to challenges of miniaturization, electromagnetic interference, and noise sources for ME antenna application. Here, a bias-free VLF ME antenna based on the magneto-gradient ME composite (i.e., annealed Metglas/Metglas/PZT/Metglas/annealed Metglas) has been designed. Owing to the interaction effect between multi-unannealed/annealed Metglas, the magneto-gradient ME composite exhibits a large direct and converse ME response (αDME = 107 V/cm Oe and αCME = 9 Gs/V at resonance) at bias-free, which is about 63% and 33% of the maximum value under optimal magnetic bias for unannealed ME composites. Moreover, a digital amplitude shift keying (ASK) modulation method is proved suitable for the as-made bias-free VLF ME antenna. Such a bias-free ME antenna provides a practicable strategy for miniaturization of VLF communication.

Topics & Concepts

MetglasMiniaturizationMaterials scienceAcousticsAntenna (radio)Electrical engineeringOptoelectronicsPhysicsEngineeringAmorphous metalNanotechnologyAlloyComposite materialMultiferroics and related materialsAcoustic Wave Resonator TechnologiesFerroelectric and Piezoelectric Materials