Local electron correlation effects on the fermiology of the weak itinerant ferromagnet ZrZn2

IF 2.9 Q3 CHEMISTRY, PHYSICAL Electronic Structure Pub Date : 2022-08-23 DOI:10.1088/2516-1075/ac9d79
Wenhan Chen, A. James, S. Dugdale
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引用次数: 4

Abstract

The Fermi surface topology plays an important role in the macroscopic properties of metals. It can be particularly sensitive to electron correlation, which appears to be especially significant for the weak itinerant ferromagnet ZrZn2. Here, we look at the differences in the predicted Fermi surface sheets of this metallic compound in its paramagnetic phase for both density functional theory (DFT) and the combination of DFT with dynamical mean field theory (DFT + DMFT). The theoretical spectral functions evaluated at the Fermi level were used along with calculations of the electron–positron momentum density (also known as the two-photon momentum density) in k-space to provide insights into the origin of certain features of the Fermi surface topology. We compare this two photon momentum density to that extracted from the positron annihilation experimental data (2004 Phys. Rev. Lett. 92 107003). The DFT + DMFT densities are in better agreement with the experiment than the DFT, particularly with regard to the flat bands around the L and W high symmetry points. The experimental neck around L, which relates to a van Hove singularity, is present in DFT + DMFT but not in the DFT. We find that these flat bands, and as such the Fermi surface topology, are sensitive to the many body electron correlation description, and show that the positron annihilation technique is able to probe this. This description is significant for the observed behavior such as the Lifshiftz transition around the quantum critical point.
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弱流动铁磁体ZrZn2发酵过程中的局域电子关联效应
费米表面拓扑在金属的宏观性质中起着重要的作用。它对电子相关特别敏感,这对弱流动铁磁体ZrZn2尤其明显。在这里,我们研究了密度泛函理论(DFT)和DFT与动态平均场理论(DFT + DMFT)相结合预测的金属化合物在顺磁相中的费米表面片的差异。在费米能级评估的理论谱函数与k空间中电子-正电子动量密度(也称为双光子动量密度)的计算一起使用,以提供对费米表面拓扑某些特征起源的见解。我们将这两个光子的动量密度与从正电子湮灭实验数据中提取的动量密度进行比较。Rev. Lett. 92 107003)。DFT + DMFT密度比DFT密度更符合实验结果,特别是在L和W高对称点周围的平坦带方面。与van Hove奇点有关的L周围的实验颈在DFT + DMFT中存在,但在DFT中不存在。我们发现这些平坦带和费米表面拓扑对多体电子相关描述是敏感的,并表明正电子湮灭技术能够探测到这一点。这种描述对于观测到的行为,如围绕量子临界点的Lifshiftz跃迁,是很重要的。
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来源期刊
CiteScore
3.70
自引率
11.50%
发文量
46
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