X-ray diffraction study of the atomic interactions, anharmonic displacements and inner-crystal field in orthorhombic KNbO3

A. Stash, Ekaterina O. Terekhova, S. Ivanov, V. Tsirelson
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引用次数: 1

Abstract

An X-ray diffraction study aimed at establishing the subtle details of the electron density and anharmonicity of the atomic vibrations in a stoichiometric monodomain single crystal of potassium niobate, KNbO3, has been conducted at room temperature (orthorhombic ferroelectric phase Amm2). The cation and anion displacements obtained from the experiment are weakly anharmonic without any manifestation of structural disorder. The chemical bond and interatomic interactions inside and between crystal substructures at the balance of intracrystalline forces are characterized in detail. The role of each of the ions in the formation of the ferroelectric phase was studied and the features of the electron-density deformation in the niobium and oxygen substructures, and the role of each of them in the occurrence of spontaneous polarization are established. The position-space distribution of electrostatic and quantum forces in KNbO3 is restored. It is emphasized that for the completeness of the analysis of the nature of the ferroelectric properties it is necessary to consider both static and kinetic electronic factors, which are of a quantum origin. The experimental results and theoretical estimations by the Kohn–Sham calculation with periodic boundary conditions are in reasonable agreement, thus indicating the physical significance of the findings of this study.
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正交KNbO3中原子相互作用、非调和位移和晶内场的x射线衍射研究
在室温下(正交铁电相Amm2)进行了一项x射线衍射研究,目的是建立化学计量单畴铌酸钾KNbO3的电子密度和原子振动的非谐性的细微细节。实验得到的阳离子和阴离子位移是弱非调和的,没有任何结构无序的表现。详细地描述了晶体内部和子结构之间的化学键和原子间的相互作用。研究了各离子在铁电相形成中的作用,确定了铌和氧亚结构中电子密度变形的特征,以及各离子在自发极化发生中的作用。还原了KNbO3中静电力和量子力的位置空间分布。强调为了分析铁电性质的完整性,有必要同时考虑量子起源的静态和动态电子因素。实验结果与周期边界条件下Kohn-Sham计算的理论估计结果吻合较好,说明了本研究结果的物理意义。
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