Functional nanostructures for bias-magnet-free and reconfigurable microwave magnetic devices

Arabinda Haldar
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引用次数: 2

Abstract

Recent demonstrations of the reconfigurable microwave properties based on patterned magnetic nanostructures without any external bias magnetic field have been reviewed. Two main design strategies for the nanostructures have been discussed. Firstly, self-biased nanomagnetic networks and multilayer structures that possess two different remanent magnetic states are exploited. Different remanent states are associated with distinct microwave properties and they are within a nanosecond time scale by using a simple field initialization scheme. The dipolar coupling field and the demagnetization field variations have been attributed to the origin of the tunable microwave responses. Secondly, magnetic skyrmions have been explored for tunable microwave properties. In this regard, skyrmion size which is directly related to its resonant modes has been controlled by placing it at different positions in an engineered nanostructure with varying edge repulsions. Finally, an outlook on the future directions and scopes of bias-free microwave devices have been discussed. It is also outlined that such devices have potential implications for the logic and magnonic technologies beyond their applications for microwave magnetic devices.

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用于无偏置磁体和可重构微波磁性器件的功能性纳米结构
综述了最近在没有任何外部偏置磁场的情况下,基于图案化磁性纳米结构的可重构微波性能的演示。讨论了纳米结构的两种主要设计策略。首先,利用具有两种不同剩余磁态的自偏置纳米磁网络和多层结构。不同的剩余态与不同的微波特性相关,并且通过使用简单的场初始化方案,它们在纳秒时间尺度内。偶极耦合场和消磁场的变化被认为是可调谐微波响应的起源。其次,磁性skyrmions已经被探索用于可调谐微波特性。在这方面,通过将skyrmion放置在具有不同边缘排斥的工程纳米结构中的不同位置,已经控制了与其共振模式直接相关的skyrmion尺寸。最后,对无偏压微波器件的发展方向和范围进行了展望。还概述了这种器件除了应用于微波磁器件之外,对逻辑和磁振技术还有潜在的意义。
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