Strain effect on the high T c superconductor YBa2Cu3O7: an ab initio study comparing bulk and monolayer models

IF 2.9 Q3 CHEMISTRY, PHYSICAL Electronic Structure Pub Date : 2023-02-28 DOI:10.1088/2516-1075/acbff9
C. Yelpo, S. Favre, D. Ariosa, R. Faccio
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Abstract

In this work, the effect of strain on the vibrational and electronic properties of the YBa2Cu3O7 compound was studied through ab initio calculations. For this, two structural models were used: a bulk model and a surface model (a monolayer with CuO2 and BaO as the terminating layers). The phonon spectra was calculated for both structures under different levels of c axis strain. The most appreciable change occurs in the vibrational properties, and in the surface case. From the simulation of the Raman spectra, we were able to quantify the Raman shift ratio as a function of the applied strain, and analyzed its behavior in terms of the overlap population of the different bonds and the reduced mass of selected phonons. The effect of the level of deformation on the band structure and the electronic density of states is small for both structures, although more noticeable in the case of the surface model. In both cases, tendencies are observed when the fine features of the band structure are analyzed by means of the tight binding model. Due to the lower symmetry, the surface model also shows modifications of the bands related to the CuO2 planes.
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高温超导体YBa2Cu3O7的应变效应:体模型与单层模型的从头算比较
本文通过从头计算研究了应变对YBa2Cu3O7化合物振动和电子性能的影响。为此,使用了两种结构模型:体模型和表面模型(以CuO2和BaO为终止层的单层)。计算了两种结构在不同c轴应变水平下的声子谱。最明显的变化发生在振动性质和表面情况。从拉曼光谱的模拟中,我们能够量化拉曼位移比作为施加应变的函数,并根据不同键的重叠人口和选定声子的减少质量来分析其行为。变形水平对能带结构和态电子密度的影响对两种结构都很小,尽管在表面模型的情况下更为明显。在这两种情况下,当用紧密结合模型分析带结构的精细特征时,都可以观察到趋势。由于较低的对称性,表面模型还显示了与CuO2平面相关的能带的修改。
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
CiteScore
3.70
自引率
11.50%
发文量
46
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