具有特殊磁性功能的 La(Fe,Si/Al)13 基材料:综述

Feixiang Long, Yuzhu Song, Jun Chen
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引用次数: 0

摘要

磁性功能材料的研究和多样化应用,如磁性存储和自旋电子学,使该领域持续受到极大关注。其中,基于 La(Fe,Si/Al)13 的材料表现出丰富的磁性能,成为极具潜力的研究课题。本综述概述了在 La(Fe,Si/Al)13 基材料中观察到的各种磁性结构和巡回电子元磁性转变。不同磁性构型的转变引发了负热膨胀、磁致伸缩、磁热效应和巴热效应等现象。此外,还揭示了自旋和晶格耦合在这些现象中的关键作用。La(Fe,Si/Al)13 基材料的磁功能可通过调整磁交换相互作用来控制。包括化学置换、外部磁场应用和插入间隙原子在内的关键方法可实现对这些功能的精确调控。这篇综述不仅为磁性功能材料的设计和开发提供了宝贵的见解,还为我们理解其磁性行为的基本机制做出了重要贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
La(Fe,Si/Al)13-based materials with exceptional magnetic functionalities: a review
The field of magnetic functional materials continues to garner significant attention due to its research and diverse applications, such as magnetic storage and spintronics. Among these, La(Fe,Si/Al)13-based materials exhibit abundant magnetic properties and emerge as highly captivating subjects with immense potential. This review provides an overview of the diverse magnetic structures and itinerant electron metamagnetic transition observed in La(Fe,Si/Al)13-based materials. The transformation of different magnetic configurations elicits the phenomena such as negative thermal expansion, magnetostriction, magnetocaloric effect, and barocaloric effect. In addition, the pivotal role of spin and lattice coupling in these phenomena is revealed. The magnetic functionalities of La(Fe,Si/Al)13-based materials can be controlled through adjustments of magnetic exchange interactions. Key methods, including chemical substitution, external field application, and interstitial atom insertion, enable precise modulation of these functionalities. This review not only provides valuable insights into the design and development of magnetic functional materials but also offers significant contributions to our understanding of the underlying mechanisms governing their magnetic behaviors.
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