Litcius/Paper detail

Gapless Dirac magnons in CrCl3

John Schneeloch, Yu Tao, Yongqiang Cheng, Luke Daemen, Guangyong Xu, Qiang Zhang, Despina Louca

2022npj Quantum Materials25 citationsDOIOpen Access PDF

Abstract

Abstract Bosonic Dirac materials are testbeds for dissipationless spin-based electronics. In the quasi two-dimensional honeycomb lattice of CrX 3 (X = Cl, Br, I), Dirac magnons have been predicted at the crossing of acoustical and optical spin waves, analogous to Dirac fermions in graphene. Here we show that, distinct from CrBr 3 and CrI 3 , gapless Dirac magnons are present in bulk CrCl 3 , with inelastic neutron scattering intensity at low temperatures approaching zero at the Dirac K point. Upon warming, magnon-magnon interactions induce strong renormalization and decreased lifetimes, with a ~25% softening of the upper magnon branch intensity from 5 to 50 K, though magnon features persist well above T N . Moreover, on cooling below ~50 K, an anomalous increase in the a -axis lattice constant and a hardening of a ~26 meV phonon feature are observed, indicating magnetoelastic and spin-phonon coupling arising from an increase in the in-plane spin correlations that begins tens of Kelvin above T N .

Topics & Concepts

MagnonCondensed matter physicsPhysicsDirac fermionPhononHelical Dirac fermionDirac (video compression format)Inelastic neutron scatteringGrapheneScatteringDirac seaNeutron scatteringQuantum mechanicsFerromagnetismNeutrinoAdvanced Condensed Matter PhysicsMultiferroics and related materialsTopological Materials and Phenomena