Unidirectional spin wave propagation due to a saturation magnetization gradient

2021 
We demonstrate using micromagnetic simulations and a theoretical model that a gradient in the saturation magnetization (${M}_{s}$) of a perpendicularly magnetized ferromagnetic film induces a nonreciprocal spin-wave propagation and, consequently, an asymmetric dispersion relation. The ${M}_{s}$ gradient adds a linear potential to the spin-wave equation of motion consistent with the presence of a force. We consider a transformation from an inertial reference frame in which the ${M}_{s}$ is constant to an accelerated reference frame where the resulting inertial force corresponds to the force from the ${M}_{s}$ gradient. As in the Doppler effect, the frequency shift leads to an asymmetric dispersion relation. We show that under certain circumstances, unidirectional propagation of spin waves can be achieved, which is essential for the design of magnonic circuits. Our results become more relevant in light of recent experimental works in which a suitable thermal landscape is used to dynamically modulate the saturation magnetization.
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