Direct Observation of Antimagnons with Inverted Dispersion

TL;DR

This study provides direct spectroscopic evidence of antimagnons with inverted dispersion in a magnetized thin film, revealing new phenomena and potential applications in magnonics and quantum information.

Contribution

It is the first to experimentally observe antimagnons with inverted dispersion and demonstrate their coexistence with conventional magnons in a driven magnetic system.

Findings

Detection of antimagnons via Brillouin light scattering.

Inverted dispersion observed above a critical current.

Coexistence of magnons and antimagnons near threshold.

Abstract

We report direct spectroscopic evidence of antimagnons, i.e., negative-energy spin waves identified by their signature inverted dispersion with Brillouin light scattering (BLS) spectroscopy. We investigate an ultrathin BiYIG film with a perpendicular magnetized anisotropy that compensates the demagnetizing field. By injecting a spin-orbit torque, the magnetization is driven into auto-oscillation and eventually into a non-equilibrium reversed state above a secondary current threshold ($\sim$1.2$\times$10$^7$~A/cm$^2$). The dispersion is measured by wavevector-resolved BLS and exhibits a sharp change from an upward dispersion to a downward one, in agreement with theoretical predictions and micromagnetic simulations. Around the threshold current, we observe the coexistence of conventional magnons and antimagnons. Our work establishes antimagnons with inverted dispersion and is a first step towards exploring novel phenomena and applications due to magnon-antimagnon coupling, such as magnon amplification and magnon-antimagnon entanglement, which are part of the emerging field of antimagnonics.