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关于LaPdSb和CePdSb金属间化合物中电子结构相互作用的新见解。

New Insights on the Electronic-Structural Interplay in LaPdSb and CePdSb Intermetallic Compounds.

作者信息

Gutmann Matthias Josef, Pascut Gheorghe Lucian, Katoh Kenichi, Zimmermann Martin von, Refson Keith, Adroja Devashibhai Thakarshibhai

机构信息

Science and Technology Facilities Council, Harwell Campus, ISIS Facility, Chilton Didcot, Oxfordshire OX11 0QX, UK.

MANSID Research Center, University Stefan Cel Mare, 720229 Suceava, Romania.

出版信息

Materials (Basel). 2022 Nov 1;15(21):7678. doi: 10.3390/ma15217678.

DOI:10.3390/ma15217678
PMID:36363271
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9656676/
Abstract

Multifunctional physical properties are usually a consequence of a rich electronic-structural interplay. To advance our understanding in this direction, we reinvestigate the structural properties of the LaPdSb and CePdSb intermetallic compounds using single-crystal neutron and X-ray diffraction. We establish that both compounds can be described by the non-centrosymmetric space group P6mc, where the Pd/Sb planes are puckered and show ionic order rather than ionic disorder as was previously proposed. In particular, at 300 K, the (h, k, 10)-layer contains diffuse scattering features consistent with the Pd/Sb puckered layers. The experimental results are further rationalized within the framework of DFT and DFT+ embedded DMFT methods, which confirm that a puckered structure is energetically more favorable. We also find strong correspondence between puckering strength and band topology. Namely, strong puckering removes the bands and, consequently, the Fermi surface pockets at the M point. In addition, the Pd-d band character is reduced with puckering strength. Thus, these calculations provide further insights into the microscopic origin of the puckering, especially the correspondence between the band's character, Fermi surfaces, and the strength of the puckering.

摘要

多功能物理性质通常是丰富的电子结构相互作用的结果。为了在这个方向上推进我们的理解,我们使用单晶中子和X射线衍射重新研究了金属间化合物LaPdSb和CePdSb的结构性质。我们确定这两种化合物都可以用非中心对称空间群P6mc来描述,其中Pd/Sb平面呈褶皱状,并且显示出离子有序,而不是如先前所提出的离子无序。特别是在300 K时,(h, k, 10)层包含与Pd/Sb褶皱层一致的漫散射特征。在密度泛函理论(DFT)和DFT+嵌入式动态平均场理论(DMFT)方法的框架内,实验结果得到了进一步的合理解释,这些方法证实了褶皱结构在能量上更有利。我们还发现褶皱强度与能带拓扑之间有很强的对应关系。也就是说,强烈的褶皱消除了能带,从而消除了M点处的费米面口袋。此外,Pd-d能带特征随着褶皱强度而降低。因此,这些计算为褶皱的微观起源提供了进一步的见解,特别是能带特征、费米面和褶皱强度之间的对应关系。

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XDS.XDS.(这个词如果没有更多背景信息,很难准确翻译出更有意义的内容,直接保留原文是一种处理方式,或者音译为“克斯达斯”之类,但感觉都不太符合常规翻译场景,你可以补充更多关于这个词的信息以便我更准确翻译 )
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