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Unraveling Thermally Induced Spin reorientation of Strongly Disordered NdFe0.5Cr0.5O3 System

Sophisticated spin instruments require high-precision spin control. In this study, we accurately study the intrinsic magnetic properties of the strongly disordered system NdFe0.5Cr0.5O3 through molecular field models combined with ASD theory. The three constituent sub-magnetic phases of the system are separated, and their magnetization contributions are calculated separately. Fitting the angle of the A/B magnetic moment at a given temperature, the reorientation temperature point and temperature dependence of different magnetic phases are obtained. This research will provide a very good theoretical support for studying complex disordered systems and applying high-precision spin control and lay a foundation for the design of new functional materials.

preprint2022arXivOpen access
Jiyu ShenJiajun MoZeyi LuChenying GongKaiyang GaoKe ShiLizhou YuYan ChenMin LiuYanfang Xia
physics.app-phcond-mat.mtrl-sci
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Jiyu ShenJiajun MoZeyi LuChenying GongKaiyang GaoKe ShiLizhou YuYan ChenMin LiuYanfang Xia

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