English

Topological phononics

Materials Science 2026-05-21 v1 Applied Physics Computational Physics Optics

Abstract

Topological phononics extends the foundational concepts of topological condensed matter physics to the realm of lattice vibrations and classical mechanical waves, unlocking robust, defect-immune states and phenomena beyond the reach of conventional phononic engineering. This review provides a unified, systematic framework for understanding topological phonons across natural and artificial systems, spanning solid-state materials, acoustic/mechanical metamaterials, and non-Hermitian platforms. We cover the core theoretical principles -- from Berry curvature and symmetry-protected topological invariants to bulk-boundary correspondence -- alongside experimental advances in probing topological phonon states via inelastic scattering and momentum-resolved techniques for solid-state phonons as well as pump-probe measurements in acoustic/mechanical metamaterials. Key topics include Weyl/Dirac/nodal-line phonons in crystalline solids, symmetry-engineered topological phases in metamaterials, non-Hermitian effects (exceptional points, skin effect), and emergent directions such as Floquet engineering, synthetic dimensions, and real-space topological textures (skyrmions, merons). We also highlight technological applications in robust waveguides, on-chip surface-acoustic-wave devices, and acoustofluidics, while outlining future challenges and opportunities in quantum phononics, nonlinear topological phenomena, and interdisciplinary integration with photonics and electronics. This review serves as a comprehensive guide across physics, materials science, and engineering, bridging fundamental theory with cutting-edge experiments and innovations in topological phononics.

Keywords

Cite

@article{arxiv.2605.20900,
  title  = {Topological phononics},
  author = {Zeguo Chen and Tiantian Zhang and Xulong Wang and Jiangxu Li and Zhi-Kang Lin and Feng Gao and Li-Wei Wang and Yizhou Liu and Qi Wang and Xiujuan Zhang and Guancong Ma and Xingqiu Chen and Minghui Lu and Yanfeng Chen and Jian-Hua Jiang},
  journal= {arXiv preprint arXiv:2605.20900},
  year   = {2026}
}

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