过光体 La_{0.7}Sr_{0.3}MnO_{3} 薄膜中巨大的界面 Dzyaloshinskii-Moriya 相互作用

L. Yang, X. Zhang, H. Wang, N. Lei, J. Wang, Y. Sun, L. Liu, Z. Zhao, Y. Yang, D. Wei, D. Pan, J. Zhao, J. Shen, W. g Zhao, H. Lu, W. Wang, H. Yu
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摘要

Dzyaloshinskii-Moriya 相互作用(DMI)对拓扑自旋纹理的不稳定起着至关重要的作用,而这正是基于氧化物的自旋电子学日益受到关注的一个关键领域。虽然在锰矿中发现的大多数拓扑现象都与块状 DMI 有关,但人们对界面 DMI 及其在氧化物界面中的起源的了解仍然有限。在这里,我们采用室温下漂移速度的自旋波传播技术,对生长在不同基底上的 La_{0.7}Sr_{0.3}MnO_{3} (LSMO) 薄膜的界面 DMI 进行了实验研究。我们的研究结果表明,LSMO/NdGaO_{3}(110) 系统中的巨界面 DMI 系数(\mathit{D} _{s})为 1.96 pJ/m,比之前报道的氧化物中的数值高出一到两个数量级。第一性原理计算进一步表明,借助6\mathit{s}电子,来自Nd的4\mathit{f}电子在增强Mn中3\mathit{d}电子的自旋轨道耦合方面发挥了关键作用,最终导致了观察到的巨界面DMI。这一通过氧化物界面工程发现的巨界面 DMI 为推进功能手性磁学和自旋电子学提供了宝贵的见解。
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Giant interfacial Dzyaloshinskii-Moriya Interaction in perovskite La_{0.7}Sr_{0.3}MnO_{3} films
The Dzyaloshinskii-Moriya interaction (DMI) plays a critical role in stabilizing topological spin textures, a key area of growing interest in oxide-based spintronics. While most of reported topological phenomena found in manganites are related to the bulk-like DMI, the understanding of interfacial DMI and its origin in oxide interfaces remain limited. Here we experimentally investigate the interfacial DMI of La_{0.7}Sr_{0.3}MnO_{3} (LSMO) films grown on various substrates by employing spin-wave propagation with drift velocities at room temperature. Our findings reveal a giant interfacial DMI coefficient (\mathit{D} _{s}) of 1.96 pJ/m in LSMO/NdGaO_{3}(110) system, exceeding previously reported values in oxides by one to two orders of magnitude. First-principles calculations further show that with the aid of 6\mathit{s} electrons, the 4\mathit{f} electrons from Nd play a key role in enhancing the spin-orbit coupling of the 3\mathit{d} electrons in Mn, ultimately leading to the observed giant interfacial DMI. This discovery of giant interfacial DMI through engineering the interface of oxides provides valuable insights for advancing functional chiral magnonics and spintronics.
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