Litcius/Paper detail

Real spin angular momentum and acoustic spin torque in a topological phononic crystal

Chenwen Yang, Yu-Tao Tan, Hong Chen, Jie Ren

2021Journal of Applied Physics26 citationsDOI

Abstract

The topological one-way waveguide mode of the acoustic wave has recently been demonstrated in various meta-structure systems. Here, we show that in a topological phononic crystal with a symmetry-broken acoustic unit cell, the topological state possesses not just a “spin-like” pseudospin mode but also real spin angular momentum. By rotating the double-square units, the band of the phononic crystal will become inverse and induce both topological phase transition and spin angular momentum reversal. As such, by putting two topologically different systems together, the spin angular momentum dependent one-way interface modes can be selectively excited by acoustic spin sources, exhibiting robust transport protected by tight spin-momentum locking. The spin angular momentum density distribution in the unit cell and edge states shows that in addition to the pseudospin, there is a strong correlation between the real spin angular momentum and topological properties in this acoustic system, producing the topologically selective acoustic torque. Revealing the real spin angular momentum and associated acoustic spin torque properties of these topological phononic and acoustic systems will give people a more general understanding about symmetric breaking wave systems and help people to explore more potential applications of acoustic spins in various topological systems.

Topics & Concepts

PhysicsAngular momentumSpin (aerodynamics)Topology (electrical circuits)Condensed matter physicsAngular momentum operatorTotal angular momentum quantum numberAngular momentum couplingQuantum mechanicsMathematicsCombinatoricsThermodynamicsTopological Materials and PhenomenaAcoustic Wave Phenomena ResearchMetamaterials and Metasurfaces Applications