Antiferromagnetic-to-Ferromagnetic Transition in the GdNiSi1 – xAlx Compound

IF 1.4 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
R. D. Mukhachev, A. V. Lukoyanov, A. G. Kuchin
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Abstract

In this work, the electronic structure and magnetic properties of GdNiSi have been investigated within the framework of theoretical DFT + U method. The antiferromagnetic ordering of the Gd moments was obtained as the ground state, whereas Ni and Si have negligible magnetic moments. An antiferromagnetic-to-ferromagnetic transition was found when GdNiSi is doped with Al in our theoretical calculations. The antiferromagnetic-to-ferromagnetic transition takes place in the Gd sublattice, the magnetic moments at the Gd ions remain the same but the type of magnetic ordering changes. It was found that even at concentrations as low as \(x = 0.1\), the ferromagnetic ordering in the Gd sublattice is more favorable in total energy as the ground state which can be ascribed to the shortening of Gd–Gd distances and the oscillating behavior of the Ruderman–Kittel–Kasuya–Yosida interaction in the Al-doped compositions. The electronic structure demonstrates significant changes in the vicinity of the localized Gd 4f states that confirms the presence of the antiferromagnetic-to-ferromagnetic transition using our theoretical results for Al \(x \geqslant 0.1\) in good agreement with the previous experimental magnetic results.

GdNiSi1 - xAlx 化合物中的反铁磁到铁磁转变
这项研究在 DFT + U 理论方法的框架内对钆镍硅的电子结构和磁性能进行了研究。在基态中,钆的磁矩为反铁磁有序,而镍和硅的磁矩可以忽略不计。在我们的理论计算中,当 GdNiSi 掺杂 Al 时,发现了反铁磁到铁磁的转变。反铁磁到铁磁的转变发生在钆亚晶格中,钆离子的磁矩保持不变,但磁有序的类型发生了变化。研究发现,即使浓度低至 x = 0.1,钆亚晶格中的铁磁有序在总能量上也比基态更有利,这可归因于掺铝成分中钆-钆距离的缩短和 Ruderman-Kittel-Kasuya-Yosida 相互作用的振荡行为。电子结构在局部 Gd 4f 态附近发生了显著变化,这证实了反铁磁到铁磁转变的存在,我们对 Al x\( \geqslant \) 0.1 的理论结果与之前的实验磁性结果非常吻合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
JETP Letters
JETP Letters 物理-物理:综合
CiteScore
2.40
自引率
30.80%
发文量
164
审稿时长
3-6 weeks
期刊介绍: All topics of experimental and theoretical physics including gravitation, field theory, elementary particles and nuclei, plasma, nonlinear phenomena, condensed matter, superconductivity, superfluidity, lasers, and surfaces.
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