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Paper detail

Ultra-wideband electrostrictive mechanical antenna

Conventional mechanical antennas provide a strategy in long-wave communication with a surprisingly compact size below 1/1,000 of the wavelength. However, the narrow bandwidth and weak field intensity seriously hamper its practical applications. Here, we present a mechanical antenna based on the electrostrictive effect of PMN-PT-based relaxor ferroelectric ceramic to improve radiation capacity and achieve ultra-wideband characteristics (10 kHz - 1 MHz, the relative bandwidth is beyond 196%). Determined by the different underlying mechanism, the mechanical antenna based on the electrostrictive effect exhibits excellent communication properties from traditional mechanical antennas. The functions of signal coding, transmitting, receiving, and decoding were experimentally demonstrated. This approach offers a promising way of constructing mechanical antennas for long-wave communication.

preprint2021arXivOpen access
Jianchun XuZhao LiXuchao PanXi WenJinqing CaoWen GongShaolong YangMing LeiFangzhou YaoKe Bi
physics.ins-detphysics.app-ph
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Jianchun XuZhao LiXuchao PanXi WenJinqing CaoWen GongShaolong YangMing LeiFangzhou YaoKe Bi

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