Roman B Morgunov, Sergey N Kashin, Ekaterina I Kunitsyna, Artem D Talantsev and Aleksander I Chernov
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引用次数: 0
摘要
多种非共轭自旋结构以及由磁场和温度引发的它们之间的转变引起了人们的关注,因为在 Ho 中复杂的自旋相非同寻常地共存。我们探索了在铁磁(FM)态和螺旋态之间发生转变的薄膜内部的磁弛豫动力学。在测量相对较高频率范围(∼100-1500 Hz)的磁感应强度和较低频率(∼0.01 Hz)的磁粘性时,我们以 400 nm 厚的 Ho 薄膜为研究对象。值得注意的是,在调频-螺旋转换期间,磁感应强度的实分量和虚分量发生了急剧变化,发生在 15 至 30 K 的温度范围内。在外部磁场周期性变化期间,磁感应强度分量的磁滞效应被识别出来,这表明调频-螺旋转换是一个相对快速的过程,时间尺度约为 10 ms。此外,还发现缓慢的弛豫过程对这一转变非常敏感。此外,磁性粘度的磁场依赖性在调频-螺旋转换时明显下降。为研究具有多相自旋结构的材料中的弛豫过程而提出的研究方法被认为是普遍适用的,并为研究具有非对偶自旋结构的材料中自旋态之间的转变提供了见解。
Magnetic relaxation between ferromagnetic and helix spin configurations in holmium films
Multiple noncollinear spin structures and transitions between them initiated by field and temperature have attracted attention due to the extraordinary coexistence of complicated spin phases in Ho. We explore the magnetic relaxation dynamics within thin films undergoing transitions between ferromagnetic (FM) and helix states. When measuring susceptibility in a relatively high frequency range (∼100–1500 Hz) and magnetic viscosity at lower frequency (∼0.01 Hz), we focus on 400 nm thick Ho film. Notably, sharp variations in the real and imaginary components of magnetic susceptibility are discerned during the FM – Helix transition, occurring at temperatures between 15 and 30 K. Hysteresis effects in the magnetic susceptibility components are identified during cyclic variations in the external field, indicating a relatively rapid process with a timescale of approximately 10 ms accompanying the FM – Helix transition. The slow relaxation process is also found to exhibit sensitivity to this transition. Furthermore, the field dependence of magnetic viscosity displays a marked decline at the FM – Helix transition. The research methodologies proposed for the investigation of relaxation processes in materials with multiphase spin structures are deemed universally applicable and offer insights into transitions between spin states in materials manifesting non collinear spin structures.
期刊介绍:
This journal is concerned with all aspects of applied physics research, from biophysics, magnetism, plasmas and semiconductors to the structure and properties of matter.