链状化合物BaCoX2O7 (X = As, P)结构调制波的可压缩性:粉末研究。

Acta Crystallographica Section B Structural Science, Crystal Engineering and Materials Pub Date : 2022-03-15 DOI:10.1107/s2052520622001159

Ranjana‐Rani Das, Bastien Leclercq, P. Bouvier, Á. Arévalo-López, C. Goujon, J. Itié, A. Polian, O. Mentré, C. Colin

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引用次数: 0

摘要

BaCoX2O7 (X = As, P)是建立在磁性一维单元上的，其中强的非周期波动源于不适应的结构调制，具有垂直于链方向的大原子位移振幅，从而产生非常独特的多铁性。利用同步x射线粉末衍射和拉曼光谱在室温下结合密度泛函计算研究了这两种化合物的高压结构和振动性质。在1.8 GPa和6.8 GPa的温度下，BaCoAs2O7和BaCoP2O7发生了结构相变。在它们的单位胞体积和拉曼模式频率上观察到急剧的跳跃，从而证实了它们的相变的一阶性质。这些转变包括从具有清晰光谱指纹的常压多晶体中调制的消失，如拉曼模式数量的减少和某些峰的形状变化。用密度泛函理论和结构弛豫理论分析了喇曼模随结构的演化关系。

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Compressibility of structural modulation waves in the chain compounds BaCoX2O7 (X = As, P): a powder study.

BaCoX2O7 (X = As, P) are built on magnetic 1D units in which strong aperiodic undulations originate from incommensurate structural modulations with large atomic displacive amplitudes perpendicular to the chain directions, resulting in very unique multiferroic properties. High-pressure structural and vibrational properties of both compounds have been investigated by synchrotron X-ray powder diffraction and Raman spectroscopy at room temperature and combined with density functional calculations. A structural phase transition is observed at 1.8 GPa and 6.8 GPa in BaCoAs2O7 and BaCoP2O7, respectively. Sharp jumps are observed in their unit-cell volumes and in Raman mode frequencies, thus confirming the first-order nature of their phase transition. These transitions involve the disappearance of the modulation from the ambient-pressure polymorph with clear spectroscopic fingerprints, such as reduction of the number of Raman modes and change of shape on some peaks. The relation between the evolution of the Raman modes along with the structure are presented and supported by density functional theory structural relaxations.

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Acta Crystallographica Section B Structural Science, Crystal Engineering and Materials

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