Multiferroic composite materials, consisting of coupled ferromagnetic and piezoelectric phases, are of great importance in the drive towards creating faster, smaller and more energy efficient devices for information and communications technologies. Such devices require thin ferromagnetic films with large magnetostriction and narrow microwave resonance linewidths. Both properties are often degraded, compared to bulk materials, due to structural imperfections and interface effects in the thin films. We report the development of epitaxial thin films of Galfenol (Fe81Ga19) with magnetostriction as large as the best reported values for bulk material. This allows the magnetic anisotropy and microwave resonant frequency to be tuned by voltage-induced strain, with a larger magnetoelectric response and a narrower linewidth than any previously reported Galfenol thin films. The combination of these properties make epitaxial thin films excellent candidates for developing tunable devices for magnetic information storage, processing and microwave communications.
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机译:由铁磁相和压电相组成的多铁复合材料在为信息和通信技术创建更快,更小,更节能的设备方面具有重要意义。这样的装置需要具有大的磁致伸缩和窄的微波谐振线宽的铁磁薄膜。与大块材料相比,由于薄膜中的结构缺陷和界面效应,两种性能通常都会下降。我们报道了具有磁致伸缩力的Galfenol(Fe 81 Ga 19 )外延薄膜的发展,该薄膜的体积与最佳散装材料的最佳值相同。与以前报道的任何Galfenol薄膜相比,这可以通过电压感应应变来调整磁各向异性和微波谐振频率,并具有更大的磁电响应和更窄的线宽。这些特性的结合使外延薄膜成为开发用于磁信息存储,处理和微波通信的可调器件的极佳候选者。
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