Comparative Raman scattering study of crystal field excitations in Co-based quantum magnets

IF 3.1 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Physical Review Materials Pub Date : 2024-08-15 DOI:10.1103/physrevmaterials.8.084408

Banasree S. Mou, Xinshu Zhang, Li Xiang, Yuanyuan Xu, Ruidan Zhong, Robert J. Cava, Haidong Zhou, Zhigang Jiang, Dmitry Smirnov, Natalia Drichko, Stephen M. Winter

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Abstract

Co-based materials have recently been explored because of their potential to realize complex bond-dependent anisotropic magnetism. Prominent examples include

{Na}_{2} {Co}_{2} {TeO}_{6}, {BaCo}_{2} {({AsO}_{4})}_{2}, {Na}_{2} BaCo {({PO}_{4})}_{2}

, and

{Co X}_{2}

(X = Cl, Br, I)

. In order to provide insight into the magnetic interactions in these compounds, we make a comparative analysis of their local crystal electric field excitations spectra via Raman scattering measurements. Combining these measurements with theoretical analysis confirms the validity of

j_{eff} = 1 / 2

single-ion ground states for all compounds, and provides accurate experimental estimates of the local crystal distortions, which play a prominent role in the magnetic couplings between spin-orbital coupled Co moments.

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Co 基量子磁体中晶体场激发的对比拉曼散射研究

由于 Co 基材料具有实现复杂的各向异性磁性键的潜力，最近人们对它们进行了探索。突出的例子包括 Na2Co2TeO6、BaCo2(AsO4)2、Na2BaCo(PO4)2 和 CoX2（X=Cl、Br、I）。为了深入了解这些化合物中的磁相互作用，我们通过拉曼散射测量对它们的局部晶体电场激发光谱进行了比较分析。将这些测量结果与理论分析相结合，证实了所有化合物的 jeff=1/2 单离子基态的有效性，并提供了对局部晶体畸变的精确实验估计，而晶体畸变在自旋轨道耦合 Co 矩之间的磁耦合中起着重要作用。

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来源期刊

Physical Review Materials Physics and Astronomy-Physics and Astronomy (miscellaneous)

CiteScore

5.80

自引率

5.90%

发文量

611

期刊介绍： Physical Review Materials is a new broad-scope international journal for the multidisciplinary community engaged in research on materials. It is intended to fill a gap in the family of existing Physical Review journals that publish materials research. This field has grown rapidly in recent years and is increasingly being carried out in a way that transcends conventional subject boundaries. The journal was created to provide a common publication and reference source to the expanding community of physicists, materials scientists, chemists, engineers, and researchers in related disciplines that carry out high-quality original research in materials. It will share the same commitment to the high quality expected of all APS publications.