Theory of three-magnon interaction in a vortex-state magnetic nanodot

“…As a consequence of the spatial antisymmetry of this component, 3M confluence from mode |1⟩ into laterally totally antisymmetric modes should have a sizable scattering rate, while confluence into symmetric modes is prohibited. 32,35,37 Because the modes |4⟩ and |5⟩ are almost but not perfectly symmetric, their small scattering rate in the parallel state is consistent with the theoretical picture.…”

“…, with a being the mode amplitude. 21 Using the vector Hamiltonian approach, 35,46 we can write the magnon interaction coefficient…”

“…The magnetic Hamiltonian term, which describes the confluence of two | i ⟩ magnons into one | j ⟩ magnon (as well as the inverse process), is , with a being the mode amplitude . Using the vector Hamiltonian approach, , we can write the magnon interaction coefficient ψ ij as The interaction is largely related to dipolar coupling between the magnons, and the operator N̂ can be written in the integral form with the magnetostatic Green’s function kernel having components . The diagonal components of the integral kernel are symmetric in space, while off-diagonal ones are antisymmetric.…”

“…Besides the energy conservation requirement given by the frequency ratio, the 3M scattering is determined by the strength of interaction between the magnon modes involved in the process. ,, In nanomagnets possessing the symmetry of an orthogonal coordinate system (e.g., rectangular, circular, and elliptical) and with negligible magnetic anisotropy, the number of 3M processes allowed by symmetry is greatly reduced, as recently shown in refs , , and . However, irregularities of demagnetization field at the nanomagnet’s edges, as well as inevitable structural imperfections, , can diminish the symmetry restrictions and lead to a finite, albeit small, magnon interaction.…”

Controlling Magnon Interaction by a Nanoscale Switch

“…As a consequence of the spatial antisymmetry of this component, 3M confluence from mode |1⟩ into laterally totally antisymmetric modes should have a sizable scattering rate, while confluence into symmetric modes is prohibited. 32,35,37 Because the modes |4⟩ and |5⟩ are almost but not perfectly symmetric, their small scattering rate in the parallel state is consistent with the theoretical picture.…”

“…, with a being the mode amplitude. 21 Using the vector Hamiltonian approach, 35,46 we can write the magnon interaction coefficient…”

“…The magnetic Hamiltonian term, which describes the confluence of two | i ⟩ magnons into one | j ⟩ magnon (as well as the inverse process), is , with a being the mode amplitude . Using the vector Hamiltonian approach, , we can write the magnon interaction coefficient ψ ij as The interaction is largely related to dipolar coupling between the magnons, and the operator N̂ can be written in the integral form with the magnetostatic Green’s function kernel having components . The diagonal components of the integral kernel are symmetric in space, while off-diagonal ones are antisymmetric.…”

“…Besides the energy conservation requirement given by the frequency ratio, the 3M scattering is determined by the strength of interaction between the magnon modes involved in the process. ,, In nanomagnets possessing the symmetry of an orthogonal coordinate system (e.g., rectangular, circular, and elliptical) and with negligible magnetic anisotropy, the number of 3M processes allowed by symmetry is greatly reduced, as recently shown in refs , , and . However, irregularities of demagnetization field at the nanomagnet’s edges, as well as inevitable structural imperfections, , can diminish the symmetry restrictions and lead to a finite, albeit small, magnon interaction.…”

Controlling Magnon Interaction by a Nanoscale Switch

“…3. This is very different from the splitting of a radial spinwave mode into two azimuthal spin-wave modes, where the radial quantum number radically changes [30,42].…”

Twisted Magnon Frequency Comb and Penrose Superradiance

The 2021 roadmap for noncollinear magnonics