凝聚态物理
反铁磁性
磁化
挫折感
磁电阻
变质磁性
相图
各向异性
近藤效应
磁各向异性
铁磁性
材料科学
物理
磁性结构
高原(数学)
几何挫折
磁场
磁性
临界指数
相变
单晶
磁畴
费米面
铁磁性
Crystal(编程语言)
铋
作者
Xu Zhongchen,Wang Yaxian,Zhang, Cuiwei,Liu, Hongxiong,Han Xin,Wu, Liusuo,Zhang Xian-min,Wu, Quansheng,Shi, Youguo
标识
DOI:10.48550/arxiv.2511.09096
摘要
Kondo metals with geometric frustration offer fertile ground for exploring exotic states of matter with a field-induced fractional magnetization platform and nonsaturating magnetoresistance. Herein, a Ce3ScBi5 single crystal with anti-Hf5Sn3Cu hexagonal structure was successfully synthesized via the bismuth self-flux method, leading to the formation of cerium cations arranged in a frustrated structure within a distorted kagome lattice. Magnetic measurements exhibit two distinct antiferromagnetic transitions at 4.1 and 5.9 K. Specifically, the occurrence of multiple metamagnetic transitions between magnetization plateaus is evidenced upon applying magnetic fields perpendicular to the c axis. Transport measurements highlight remarkable Kondo-lattice characteristics and anisotropic magnetoresistance in Ce3ScBi5. The anomalous Hall contributions are observed at low temperatures under critical fields, suggesting Fermi surface reconstruction in a subset of the metamagnetic transitions. We have constructed a temperature-field phase diagram to provide comprehensive information on the complex magnetic structures arising from competitive interactions. Our work establishes Ce3ScBi5 and related materials as a unique platform for exploring low-dimensional quantum fluctuations in bulk crystals, and analyzes the critical role of geometric frustration in Kondo and Ruderman-Kittel-Kasuya-Yosida physical frameworks.
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