Interaction between Charge Density Waves in the Monoclinic Phase of NbS3

IF 1.4 4区物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY

JETP Letters Pub Date : 2025-04-21 DOI:10.1134/S0021364025600156

V. Ya. Pokrovskii, A. L. Vasiliev, N. B. Bolotina, A. G. Ivanova, S. V. Zaitsev-Zotov, S. G. Zybtsev, A. A. Sinchenko

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Abstract

In the monoclinic polytype NbS₃-II, the monoclinic b-axis of which coincides with the direction of greatest conductivity, two charge density waves (CDWs) have been observed at room temperature: CDW-0 with the wave vector q₀ = 0.5a* + 0.352b* + 0.5c* and CDW-1 with the wave vector q₁ = 0.5a* + 0.298b* + 0.5c*. X‑ray diffraction patterns obtained in the temperature range of 90–500 K have shown that the vectors q₀ and q₁ depend on the temperature, but their b* coordinates satisfy the relation \(2q_{0}^{{{\mathbf{b}}\text{*}}}(T) + q_{1}^{{{\mathbf{b}}\text{*}}}(T) = {\text{const}} = 1\). It has been concluded that the wave vector q₁ of CDW-1 is determined not only by the nesting of Fermi surfaces, but also by the vector q₀, because CDW-1 is adjusted to the second harmonic of CDW-0, which indicates the interaction between charge density waves. This conclusion has been confirmed by structural studies of NbS₃-II samples, the lattice of which is strongly deformed due to a high concentration of twins. In these samples, CDW-0 is conserved, and the wave vector of CDW-1 has the b* component not related to q₀.

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NbS3单斜相中电荷密度波的相互作用

在单斜b轴与最大电导率方向重合的单斜多型NbS3-II中，在室温下观察到两个电荷密度波：波矢量q0 = 0.5a* + 0.352b* + 0.5c*的CDW-0和波矢量q1 = 0.5a* + 0.298b* + 0.5c*的CDW-1。在90-500 K温度范围内获得的X射线衍射图表明，矢量q0和q1与温度有关，但它们的b*坐标满足\(2q_{0}^{{{\mathbf{b}}\text{*}}}(T) + q_{1}^{{{\mathbf{b}}\text{*}}}(T) = {\text{const}} = 1\)关系。结果表明，CDW-1的波矢量q1不仅由费米面嵌套决定，还由矢量q0决定，因为CDW-1被调整为CDW-0的二次谐波，表明电荷密度波之间的相互作用。这一结论已被NbS3-II样品的结构研究证实，其晶格由于高浓度的孪晶而发生强烈变形。在这些样品中，CDW-0是守恒的，CDW-1的波矢量有与q0无关的b*分量。

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来源期刊

JETP Letters 物理-物理：综合

CiteScore

2.40

自引率

30.80%

发文量

164

审稿时长

3-6 weeks

期刊介绍： All topics of experimental and theoretical physics including gravitation, field theory, elementary particles and nuclei, plasma, nonlinear phenomena, condensed matter, superconductivity, superfluidity, lasers, and surfaces.