凝聚态物理
Weyl半金属
反铁磁性
顺磁性
半金属
塞贝克系数
拓扑绝缘体
热导率
费米面
磁场
铁磁性
磁电阻
相变
材料科学
物理
带隙
量子力学
超导电性
作者
R. A. Robinson,Seng Huat Lee,Lujin Min,Jinliang Ning,Jianwei Sun,Zhiqiang Mao
标识
DOI:10.48550/arxiv.2304.06154
摘要
We report thermal conductivity and Seebeck effect measurements on Mn(Bi1-xSbx)2Te4 (MBST) with x = 0.26 under applied magnetic fields below 50 K. Our data shows clear indications of the electronic structure transition induced by the antiferromagnetic (AFM) to ferromagnetic (FM) transition driven by applied magnetic field as well as significant positive magnetothermal conductivity in the Weyl semimetal state of MBST. Further, by examining the dependence of magnetothermal conductivity on field orientation for MBST and comparison with the magnetothermal conductivity of MnBi2Te4 we see evidence of a contribution to thermal conductivity due to Weyl fermions in the FM phase of MBST. From the temperature dependence of Seebeck coefficient under magnetic fields for MBST, we also observed features consistent with the Fermi surface evolution from a hole pocket in the paramagnetic state to a Fermi surface with coexistence of electron and hole pockets in the FM state. These findings provide further evidence for the field-driven topological phase transition from an AFM topological insulator to a FM Weyl semimetal.
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