对 TaAs 类韦尔半金属中的结弧、轴向应变对结线和韦尔结点的影响以及韦尔贡献的塞贝克系数的模拟研究

IF 1.6 4区 物理与天体物理 Q3 PHYSICS, CONDENSED MATTER The European Physical Journal B Pub Date : 2024-10-08 DOI:10.1140/epjb/s10051-024-00788-z
Vivek Pandey, Sudhir K. Pandey
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引用次数: 0

摘要

这项工作证实了在 NbAs 和 NbP 中存在色散节点弧,并在自旋轨道耦合 (SOC) 作用下将其演化为 Weyl 节点。所获得的特征与我们之前的工作(Pandey in J Phys Condens Matter 35:455501, 2023)中对 TaAs 和 TaP 的观察结果相似。此外,这项工作还报告了 TaAs 类韦尔半金属(WSMs)的节点数量可以通过沿晶体的 a 或 c 方向产生应变来改变。例如,在 SOC 效应和沿 a 方向 2% (3%) 的拉伸应变作用下,发现 NbAs 在其全布里渊区 (BZ) 中的节点数量为 40 (56)。在忽略 SOC 效应的情况下,除了节点之外,这种应变对这些 WSM 的节点线也有相当大的影响。在没有 SOC 的情况下,沿 a(c)方向 3% 的拉伸(压缩)应变会导致 NbAs 和 NbP 的扩展 BZ 中的节点线部分合并,而在 - 3% 到 3% 的应变范围内,TaAs 和 TaP 中没有观察到这种现象。除此之外,该研究还讨论了韦尔物理学在影响任何 WSM 的塞贝克系数 (S) 方面的作用。在这方面,研究讨论了对称的韦尔锥即使倾斜,也不会对 WSM 的塞贝克系数产生任何影响。此外,这项工作还强调了韦尔锥能够对给定 WSM 的 S 做出贡献的条件。接下来,通过研究 TaAs 类 WSM 的 Weyl 锥的特征并计算这些锥对这些半金属的 S 的贡献,验证了关于 Weyl 对 S 的贡献的讨论。在 NbP 的情况下,Weyl 锥贡献的 S 值在 25 K 以下高达 \(\sim \)70 \(\mu \)V/K 。最后,讨论了轴向应变和 SOC 强度变化对 TaAs 类 WSM 的 S 的预期影响。这项研究成果为通过在晶体中产生应变来设计 TaAs 类微晶显示器的拓扑特性提供了可能性。这也使韦尔物理学对 WSMs S 的影响更加清晰。
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An ab-initio study of nodal-arcs, axial strain’s effect on nodal-lines and Weyl nodes and Weyl-contributed Seebeck coefficient in TaAs class of Weyl semimetals

This work establishes the existence of dispersive nodal-arcs and their evolution into Weyl nodes under the effect of spin-orbit coupling (SOC) in NbAs and NbP. The obtained features mimic the observations as reported for TaAs and TaP in our previous work (Pandey in J Phys Condens Matter 35:455501, 2023). In addition, this work reports that the number of nodes in the TaAs class of Weyl semimetals (WSMs) can be altered by creating strain along a or c direction of the crystals. For instance, the number of nodes in NbAs under SOC-effect along with 2% (3%) tensile-strain in a direction is found to be 40 (56) in its full Brillouin zone (BZ). Besides the nodes, such strain are found to have considerable impact on the nodal-lines of these WSMs when effect of SOC is ignored. In the absence of SOC, a 3% tensile (compressive) strain along the a (c) direction leads to the partially merging of nodal-lines in the extended BZ of NbAs and NbP, which is not observed in TaAs and TaP within the range of – 3% to 3% strain. Apart from this, the work discusses the role of Weyl physics in affecting the Seebeck coefficient (S) of any WSM. In this direction, it is discussed that how a symmetric Weyl cone, even if tilted, will have no contribution to the S of WSMs. Furthermore, the work highlights the conditions under which a Weyl cone can contribute to the S of a given WSM. Next, the discussion of Weyl contribution to S is validated over TaAs class of WSMs via investigating the features of their Weyl cones and calculating the contributions of such cones to the S of these semimetals. Weyl-cone contributed S in these WSMs is found to be anisotropic within the temperature range of 0–100 K. The value of S contributed from Weyl cone is found to be as large as \(\sim \)70 \(\mu \)V/K below 25 K in case of NbP. Lastly, the expected effect of axial strain and change in SOC-strength on S of TaAs class of WSMs is discussed. The findings of this work present a possibility of engineering the topological properties of TaAs class of WSMs via creating strain in their crystal. It also makes the picture of Weyl physics’  impact on the S of WSMs a more clear.

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来源期刊
The European Physical Journal B
The European Physical Journal B 物理-物理:凝聚态物理
CiteScore
2.80
自引率
6.20%
发文量
184
审稿时长
5.1 months
期刊介绍: Solid State and Materials; Mesoscopic and Nanoscale Systems; Computational Methods; Statistical and Nonlinear Physics
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