Open AccessDamping of Magnetoelastic Waves
Author(s) -
V. G. Baryakhtar,
A. G. Danilevich
Publication year - 2020
Publication title -
ukrainian journal of physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.213
H-Index - 17
eISSN - 2071-0194
pISSN - 2071-0186
DOI - 10.15407/ujpe65.10.912
Subject(s) - dissipative system , condensed matter physics , dissipation , physics , dispersion (optics) , ferromagnetism , relaxation (psychology) , symmetry (geometry) , resonance (particle physics) , magnetic damping , classical mechanics , optics , quantum mechanics , vibration , psychology , social psychology , geometry , mathematics
A general method for constructing a model of the dissipative function describing the relaxation processes induced by the damping of coupled magnetoacoustic waves in magnetically ordered materials has been developed. The obtained model is based on the symmetry of the magnet and describes both exchange and relativistic interactions in the crystal. The model accounts for the contributions of both the magnetic and elastic subsystems to the dissipation, as well asthe relaxation associated with the magnetoelastic interaction. The dispersion law for coupled magnetoelastic waves is calculated in the case of a uniaxial ferromagnet of the “easy axis” type. It is shown that the contribution of the magnetoelastic interaction to dissipative processes can play a significant role in the case of magnetoacoustic resonance.