电荷密度波和单轴应变对 2H-NbSe2 电子结构的影响

IF 7.5 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Asish K. Kundu, Anil Rajapitamahuni, Elio Vescovo, Ilya I. Klimovskikh, Helmuth Berger, Tonica Valla
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引用次数: 0

摘要

长期以来,超导性和密度波阶的相互作用一直是相关电子相研究的前沿问题。2H-NbSe2 被认为是研究这种相互作用的原型系统,事实证明这两种阶次之间的平衡对带填充和压力很敏感。然而,这种材料中电荷密度波的起源仍悬而未决。在此,我们利用角度分辨光发射光谱重新审视了电荷密度波序,并研究了单轴应变对 2H-NbSe2 电子结构的影响。我们的研究结果表明,费米面上存在以前未发现的电荷密度波。施加少量单轴应变会导致电子结构发生重大变化,并降低其对称性。这种变化和晶格的改变应该会影响电荷密度波相和超导性,并应能在宏观特性中观察到。2H-NbSe2 是研究超导性与密度波阶之间相互作用的原型系统。在这里,角度分辨光发射光谱研究深入揭示了这种材料中电荷密度波的起源,并揭示了单轴应变在改变电子结构方面的重大影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Charge density waves and the effects of uniaxial strain on the electronic structure of 2H-NbSe2

Charge density waves and the effects of uniaxial strain on the electronic structure of 2H-NbSe2
Interplay of superconductivity and density wave orders has been at the forefront of research of correlated electronic phases for a long time. 2H-NbSe2 is considered to be a prototype system for studying this interplay, where the balance between the two orders was proven to be sensitive to band filling and pressure. However, the origin of charge density wave in this material is still unresolved. Here, by using angle-resolved photoemission spectroscopy, we revisit the charge density wave order and study the effects of uniaxial strain on the electronic structure of 2H-NbSe2. Our results indicate previously undetected signatures of charge density waves on the Fermi surface. The application of small amount of uniaxial strain induces substantial changes in the electronic structure and lowers its symmetry. This, and the altered lattice should affect both the charge density wave phase and superconductivity and should be observable in the macroscopic properties. 2H-NbSe2 is a prototype system for studying the interplay between superconductivity and density wave orders. Here, an angle-resolved photoemission spectroscopy study provides insights into the origin of charge density wave in this material and reveals the substantial effects of uniaxial strain in modifying the electronic structure.
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来源期刊
Communications Materials
Communications Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
12.10
自引率
1.30%
发文量
85
审稿时长
17 weeks
期刊介绍: Communications Materials, a selective open access journal within Nature Portfolio, is dedicated to publishing top-tier research, reviews, and commentary across all facets of materials science. The journal showcases significant advancements in specialized research areas, encompassing both fundamental and applied studies. Serving as an open access option for materials sciences, Communications Materials applies less stringent criteria for impact and significance compared to Nature-branded journals, including Nature Communications.
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