Demonstration of field-tunable magnon-polaron cavity in YIG-ZnO heterostructure with low dissipation and first observation of Rabi-like oscillations in SAW-spin wave system.
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An analytical reciprocal-space framework is presented for symmetric and antisymmetric collective spin-wave modes arising from dipolar coupling in exchange-decoupled magnetic bilayers, giving direct access to dispersion relations and mode shapes.
Local inhomogeneities enable phase-dependent non-adiabatic parametric amplification of propagating spin waves in YIG nanostructures via momentum scattering, as shown by micromagnetic simulations and Brillouin light scattering experiments.
Garnet-perovskite composites made from polymorphs of the same composition enable electric-field modulation of magnon dispersion and magnetooptical response in the garnet phase.
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Magnon-polaron control in a surface magnetoacoustic wave resonator
Demonstration of field-tunable magnon-polaron cavity in YIG-ZnO heterostructure with low dissipation and first observation of Rabi-like oscillations in SAW-spin wave system.