Litcius/Paper detail

Chiral Phonons: Prediction, Verification, and Application

T.S. Wang, Hong Sun, X.J. Li, Lifa Zhang

2024Nano Letters38 citationsDOI

Abstract

Chirality as an asymmetric property is prevalent in nature. In physics, the chirality of the elementary particles that make up matter has been widely studied and discussed, and nowadays, the concept has developed into the field of phonons. As an important fundamental excitation in condensed matter physics, phonons are traditionally considered to be linearly polarized and nonchiral. However, in recent years, the chirality of phonons has been revealed and further experimentally verified. The discovery has triggered a series of new explorations and developments in phonon-related physical processes. This Mini-Review provides an overview of the theoretical prediction of chiral phonons and multiple experimental detection methods and highlights the current key issues in the application of chiral phonons in different fields.

Topics & Concepts

PhononChirality (physics)ExcitationPhysicsField (mathematics)Condensed matter physicsQuantum mechanicsSymmetry breakingMathematicsSpontaneous symmetry breakingPure mathematicsNambu–Jona-Lasinio modelTopological Materials and PhenomenaTerahertz technology and applicationsQuantum, superfluid, helium dynamics