Author:
Jin 金 Zhao-Nian 兆年,He 何 Xuan-Lin 宣霖,Yu 于 Chao 超,Fang 方 Henan 贺男,Chen 陈 Lin 琳,Tao 陶 Zhi-Kuo 志阔
Abstract
We theoretically investigate the propagation characteristics of spin waves in skyrmion-based magnonic crystals. It is found that the dispersion relation can be manipulated by strains through magneto-elastic coupling. Especially, the allowed bands and forbidden bands in dispersion relations shift to higher frequency with strain changing from compressive to tensile, while shifting to lower frequency with strain changing from tensile to compressive. We also confirm that the spin wave with specific frequency can pass the magnonic crystal or be blocked by tuning the strains. The result provides an advanced platform for studying the tunable skyrmion-based spin wave devices.
Subject
General Physics and Astronomy