What question did this study set out to answer?

This research explores the spectral characteristics of coupled ferromagnetic and normal metal structures under different damping compensation conditions.

March 15, 2026

Spectral characteristics of coupled magnonic structures under spin-wave damping compensation

Key Points

This research explores the spectral characteristics of coupled ferromagnetic and normal metal structures under different damping compensation conditions.
Analyzed the magnetization dynamics in FM–NM structures using a linear model of complex amplitudes.
Examined the effects of symmetric and asymmetric compensation on spin-wave damping.
Investigated normal modes and their degeneracy at an exceptional point.
Asymmetric compensation leads to a transition from a two-frequency to a single-frequency regime.
This transition is accompanied by a narrowing of the spectral linewidth.
Symmetric compensation maintains the two-frequency regime.

Abstract

The magnetization dynamics in two dipolarly coupled ferromagnet–normal metal (FM–NM) structures is investigated under symmetric and asymmetric compensation of intrinsic spin-wave damping mediated by the spin Hall effect. Within the framework of a linear model of complex amplitudes, the spectral characteristics of the normal modes are analyzed, including their degeneracy at an exceptional point in the asymmetric case. It is demonstrated that asymmetric compensation leads to a transition from a two-frequency to a single-frequency regime at the exceptional point, accompanied by a narrowing of the spectral linewidth, whereas symmetric compensation preserves the two-frequency regime. The results are of relevance for the development of magnonic devices such as filters and sensors.

Bookmark

Cite This Study

Temnaya et al. (Wed,) studied this question.

synapsesocial.com/papers/69b5ff8083145bc643d1c0d3 https://doi.org/https://doi.org/10.7868/s3034590125120071

Bookmark