Spontaneous emergence of phonon angular momentum through hybridization with magnons

TL;DR

This paper demonstrates the spontaneous emergence of nondegenerate, elliptically polarized phonon pairs coupled with magnons in a van der Waals antiferromagnet, enabling chiral phonon control without external symmetry breaking.

Contribution

It reveals that magnon-phonon hybridization can produce nondegenerate, elliptically polarized phonons with opposite helicities, providing a new pathway for chiral phonon manipulation.

Findings

Confirmed magnon-phonon hybridization in FePSe3

Demonstrated coherent excitation of nondegenerate chiral phonons

Mapped the ellipticity and trajectory of hybrid quasiparticles

Abstract

Chirality, the breaking of improper rotational symmetry, is a fundamental concept spanning diverse scientific domains. In condensed matter physics, chiral phonons, originating from circular atomic motions that carry angular momentum, have sparked intense interest due to their coupling to magnetic degrees of freedom, enabling potential phonon-controlled spintronics. However, modes and their counter-rotating counterparts are typically degenerate at the Brillouin zone center. Selective excitation of a single-handed circulating phonon requires external stimuli that break the degeneracy. Whether energetically nondegenerate circularly polarized phonons can appear spontaneously without structural or external symmetry breaking remains an open question. Here, we demonstrate that nondegenerate elliptically polarized phonon pairs can be induced by coupling to magnons with same helicity in the van der Waals antiferromagnet $\mathrm{FePSe_3}$. We confirm the presence of magnon-phonon hybrids, also known as magnon polarons, which exhibit inherent elliptical polarization with opposite helicities and distinct energies. This nondegeneracy enables their coherent excitation with linearly polarized terahertz pulses, which also endows these rotating modes with chirality. By tuning the polarization of the terahertz drive and measuring phase-resolved polarimetry of the resulting coherent oscillations, we determine the ellipticity and map the trajectory of these hybrid quasiparticles. Our findings establish a general approach to search for intrinsically nondegenerate phonons with angular momentum at the center of the Brillouin zone and introduce a new methodology for characterizing their ellipticity, outlining a roadmap towards chiral-phonon-controlled spintronic functionalities.