Giant phonon anomaly in topological nodal-line semimetals

IF 6.3 3区综合性期刊 Q1 Multidisciplinary Fundamental Research Pub Date : 2025-01-01 DOI:10.1016/j.fmre.2022.12.012

Zizhen Zhou , Xiaolong Yang , Honghui Wang , Guang Han , Xu Lu , Guoyu Wang , Rui Wang , Xiaoyuan Zhou

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Abstract

The band topology has been revealed to bring a wide array of novel electronic transport phenomena, but its interaction with phonon properties remains largely unexplored. Here we propose that continuous topological singularities with variable Fermi wave vectors can lead to giant effects on phonon transport in nodal-line semimetals. Using first-principles calculations, we show that such an exotic feature is present in a well-known topological semimetal ZrSiSe, in which the unique nodal-line can guarantee considerable momentum-continuous phonons to satisfy the stringent condition of Kohn anomaly and thereby dramatically strengthen the electron-phonon coupling. Moreover, the momentum-continuous anomaly phonons with eight arms of vertical Fermi surface drive intense phonon-electron scattering that is even comparable with intrinsic phonon-phonon scattering, giving rise to a reduction of ∼45% on room temperature lattice thermal conductivity. Our findings not only uncover giant phonon anomaly in topological nodal-line semimetals but also provide guidance for exploring the vital influence of electronic band topology on thermal transport bridged by the electron-phonon coupling.

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拓扑节点线半金属中的巨声子异常

带状拓扑结构已被揭示带来了广泛的新型电子输运现象，但其与声子性质的相互作用在很大程度上仍未被探索。本文提出具有可变费米波矢量的连续拓扑奇点会对节线半金属中的声子输运产生巨大影响。利用第一性原理计算，我们证明了这种奇特的特征存在于一个著名的拓扑半金属zrise中，其中独特的节点线可以保证相当多的动量连续声子满足Kohn异常的严格条件，从而显着加强电子-声子耦合。此外，具有垂直费米表面八臂的动量连续异常声子驱动强烈的声子-电子散射，甚至可与本征声子-声子散射相媲美，导致室温晶格导热系数降低约45%。我们的发现不仅揭示了拓扑节点线半金属中巨大的声子异常，而且为探索电子带拓扑对电子-声子耦合桥接热输运的重要影响提供了指导。

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