太赫兹控制铁磁腔中的交换模式

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-06-28 DOI:arxiv-2406.19849

Chris Reinhoffer, Ilya Razdolski, Philipp Stein, Semyon Germanskiy, Andrzej Stupakiewicz, Paul H. M. van Loosdrecht, Evgeny A. Mashkovich

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引用次数: 0

摘要

太赫兹（THz）辐射与复杂磁性材料中高频自旋共振的相互作用是现代超快磁学的核心。在这里，我们展示了单晶铁磁体（Gd,Bi）$_3$Fe$_5$O$_{12}$ 中亚太赫兹交换磁子激发效率的强烈变化。当交换磁子的频率与样品界面产生的空腔的特征模式相匹配时，就会观察到交换磁子振幅的增强。此外，这种增强还伴随着交换模式有效阻尼的 5 倍下降。根据开发的兰道-利夫希茨-吉尔伯特形式主义，分析了空腔中的太赫兹交换磁子相互作用，适用于三个耦合磁化子晶格和空腔增强太赫兹场。这项工作为铁磁体中的自旋动力学太赫兹激励提供了一种新方法，并为单晶体中光-自旋耦合的受控优化勾勒出了前景广阔的途径。

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THz Control of Exchange Mode in a Ferrimagnetic Cavity

The interaction of terahertz (THz) radiation with high-frequency spin resonances in complex magnetic materials is central for modern ultrafast magnonics. Here we demonstrate strong variations of the excitation efficiency of the sub-THz exchange magnon in a single crystal ferrimagnet (Gd,Bi)$_3$Fe$_5$O$_{12}$. An enhancement of the exchange magnon amplitude is observed when its frequency matches an eigenmode of the cavity created by the sample interfaces. Moreover, this enhancement is accompanied by a 5-fold decrease in effective damping of the exchange mode. The THz-exchange magnon interaction in the cavity is analyzed within the developed Landau-Lifshitz-Gilbert formalism for three coupled magnetization sublattices and cavity-enhanced THz field. This work presents a novel approach for the THz excitation of spin dynamics in ferrimagnets and outlines promising pathways for the controlled optimization of light-spin coupling in single crystals.

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arXiv - PHYS - Other Condensed Matter

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