English

Bidirectional elastic diode with frequency-preserved nonreciprocity

Applied Physics 2021-05-19 v1

Abstract

The study of nonreciprocal wave propagation is of great interests for both fundamental research and engineering applications. Here we demonstrate theoretically and experimentally a bidirectional, nonreciprocal, and high-quality diode that can rectify elastic waves in both forward and backward directions in an elastic metamaterial designed to exhibit enhanced nonlinearity of resonances. This diode can preserve or vary frequency, rectify low-frequency long wave with small system size, offer high-quality insulation, can be modulated by amplitude, and break reciprocity of both the total energy and fundamental wave. We report three mechanisms to break reciprocity: the amplitude-dependent bandgap combining interface reflection, chaotic response combining linear bandgap, amplitude-dependent attenuation rate in damping diode. The bidirectional diode paves ways for mutually controlling information/energy transport between two sources, which can be used as new wave insulators.

Keywords

Cite

@article{arxiv.2103.07038,
  title  = {Bidirectional elastic diode with frequency-preserved nonreciprocity},
  author = {Xin Fang and Jihong Wen and Li Cheng and Baowen Li},
  journal= {arXiv preprint arXiv:2103.07038},
  year   = {2021}
}

Comments

11 pages, 13 figures

R2 v1 2026-06-24T00:02:15.199Z