Strain-induced magnetic anisotropy of multi-domain epitaxial EuPd2 thin films

Alfons G Schuck, Sebastian Kölsch, Adrian Valadkhani, Igor I Mazin, Roser Valentí, Michael Huth
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Abstract

Europium intermetallic compounds show a variety of different ground states and anomalous physical properties due to the interactions between the localized 4f electrons and the delocalized electronic states. Europium is also the most reactive of the rare earth metals which might be the reason why very few works are concerned with the properties of Eu-based thin films. Here we address the low-temperature magnetic properties of ferromagnetic EuPd2 thin films prepared by molecular beam epitaxy. The epitaxial (111)-oriented thin films grow on MgO (100) with eight different domain orientations. We analyze the low-temperature magnetic hysteresis behavior by means of micromagnetic simulations taking the multi-domain morphology explicitly into account and quantify the magnetic crystal anisotropy contribution. By ab initio calculations we trace back the microscopic origin of the magnetic anisotropy to thin film-induced uniform biaxial strain.
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多域外延 EuPd2 薄膜的应变诱导磁各向异性
由于局域 4f 电子和脱局域电子态之间的相互作用,铕金属间化合物显示出各种不同的基态和异常物理性质。铕也是稀土金属中反应性最强的一种,这可能是很少有人研究铕基薄膜特性的原因。在此,我们探讨了分子束外延法制备的铁磁性 EuPd2 薄膜的低温磁性能。外延 (111) 取向薄膜生长在氧化镁 (100) 上,具有八种不同的畴取向。我们通过微磁模拟分析了低温磁滞行为,明确考虑了多畴体形态,并量化了磁晶体各向异性的贡献。通过 ab initio 计算,我们将磁各向异性的微观起源追溯到薄膜引起的均匀双轴应变。
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