Development of energy-efficient on-demand magnonic nanochannels (MNCs) can revolutionize on-chip data communication and processing. We have developed a dynamic MNC array by periodically tailoring perpendicular magnetic anisotropy using the electric field. Brillouin light scattering spectroscopy is used to probe the spin wave (SW) dispersion of MNCs formed by applying a static electric field at the CoFeB/MgO interface through the one-dimensional stripe-like array of indium tin oxide electrodes placed on top of Ta/CoFeB/MgO/Alsub2/subOsub3/sub heterostructures. Magnonic bands, consisting of two SW frequency modes, appear with a bandgap under the application of moderate gate voltage, which can be switched off by withdrawing the voltage. The experimental results are reproduced by plane wave method–based numerical calculations, and simulated SW mode profiles show propagating SWs through nanochannels with different magnetic properties. The anticrossing between these two modes gives rise to the observed magnonic bandgap.
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机译:开发节能按需磁纳米(MNC)可以彻底改变片上数据通信和处理。我们通过使用电场定期定制垂直磁各向异性来开发了一种动态MNC阵列。布里渊光散射光谱用于探测通过在Ta /的顶部的铟锡氧化物电极的一维条状阵列上施加CofeB / MgO接口在CoFeB / MgO接口上施加静电场的旋转波(SW)分散体。 CoFeB / MgO / Al <亚> 2 O 3 异质结构。由两个SW频率模式组成的磁带出现在适度栅极电压的应用下具有带隙,这可以通过抽取电压关闭。实验结果由基于平面波方法的数值计算再现,并且模拟的SW模式轮廓显示通过具有不同磁性的纳米通道传播SWS。这两种模式之间的抗劳力导致观察到的千万无样的带隙。
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