Competing charge density wave phases in YNiC2

IF 3.7 2区物理与天体物理 Q1 Physics and Astronomy

Physical Review B Pub Date : 2025-05-01 DOI:10.1103/physrevb.111.195101

Marta Roman, Simone Di Cataldo, Berthold Stöger, Lisa Reisinger, Emilie Morineau, Kamil K. Kolincio, Herwig Michor

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引用次数: 0

Abstract

Charge density wave (CDW) orders in YNiC2 are studied by means of combined experimental and computational techniques. On the experimental side, single crystals grown by the floating-zone method were examined by means of x-ray diffraction, as well as transport and thermal techniques. Density functional theory (DFT) calculations founded on the experimentally determined parent and CDW-modified crystal structures provide details of electronic and phononic structures as well as electron-phonon coupling and resolve changes inflicted upon entering the different CDW phases. Thereby, contrasting effects of subsequently emerging CDW states characterized by incommensurate q1ic and commensurate q2c modulation vectors are revealed. The former state, on-setting below T1ic≃305K, weakly modifies the electronic structure by opening an almost isotropic gap on a minor part of the Fermi surface (FS). The latter phase, which takes over below T2c≃272K has a more pronounced impact on physical properties via a decomposition of larger parts of the FS. These dissimilar behaviors are directly reflected in the electronic transport anisotropy, which is significantly weakened in the q2c-type CDW state. As revealed by our DFT studies, CDW phases are very close in energy and their origin is directly related to the anisotropy of electron-phonon coupling, which is linked to a specific orbital character of related FS sheets. Specific heat and thermal expansion studies reveal a nearly reversible first-order phase transition at around T2c≃272K, where both CDW phases coexist within a T interval of about 10 K.

Published by the American Physical Society

2025

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YNiC2中竞争电荷密度波相

采用实验与计算相结合的方法研究了YNiC2中的电荷密度波阶数。在实验方面，通过x射线衍射以及输运和热技术对漂浮区法生长的单晶进行了检查。密度泛函理论（DFT）计算建立在实验确定的母体和CDW修饰的晶体结构上，提供了电子和声子结构以及电子-声子耦合的细节，并解决了进入不同CDW相时所造成的变化。因此，揭示了随后出现的以不相称q1ic和相称q2c调制矢量为特征的CDW状态的对比效应。前一种状态，在低于t1tic≃305K时，通过在费米表面（FS）的一小部分上打开一个几乎各向同性的间隙，微弱地改变了电子结构。后一阶段在T2c以下开始，通过对FS的更大部分的分解，对物理性质的影响更为明显。这些不同的行为直接反映在电子输运各向异性上，在q2c型CDW态中，电子输运各向异性明显减弱。我们的DFT研究表明，CDW相的能量非常接近，它们的起源与电子-声子耦合的各向异性直接相关，而电子-声子耦合的各向异性与相关FS片的特定轨道特性有关。比热和热膨胀研究表明，在T2c左右的一阶相变近似可逆，两个CDW相在约10 K的T区间内共存。2025年由美国物理学会出版

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

Physical Review B 物理-物理：凝聚态物理

CiteScore

6.70

自引率

32.40%

发文量

审稿时长

3.0 months

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