D-Wave Phonon Angular Momentum Texture in Altermagnets by Magnon-Phonon-Hybridization

Abstract: In altermagnets, the magnon bands are anisotropically spin-split in reciprocal space without relativistic or dipolar spin-spin interactions. In this work, we theoretically study magnons and phonons coupled by spin-lattice interaction in a two-dimensional square-lattice $d$-wave altermagnet. We show that phonon-chirality-selective magnon-phonon hybridization can be caused by interfacial Dzyaloshinskii-Moriya interaction leading to the emergence of hybrid quasiparticles that possess finite phonon angular momentum. These hybrid quasiparticles are called magnon polarons and consist of spin-polarized magnons and chiral phonons. Their phonon angular momentum texture follows the $d$-wave character of the magnon spin texture opening up the possibility of phononic counterparts to the electronic response effects in altermagnets, such as a \emph{phonon angular momentum splitter effect}, i.e., the generation of a transverse phonon angular momentum current induced by a temperature gradient -- the bosonic analogue of the spin-splitter effect.