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Paper detail

Robust antiferromagnetism preventing superconductivity in pressurized Ba0.61K0.39Mn2Bi2

Here, we report that K-doped BaMn2Bi2 shows no experimental evidence of superconductivity down to 1.5 K under pressures up to 35.6 GPa, however, a tetragonal to an orthorhombic phase transition is observed at pressure of 20 GPa. Theoretical calculations for the tetragonal and orthorhombic phases, on basis of our high-pressure XRD data, find that the AFM order is robust in both of the phases in pressurized Ba0.61K0.39Mn2Bi2. Our experimental and theoretical results suggest that the K-doped BaMn2Bi2 belongs to a strong Hunds AFM metal with a hybridization of localized spin electrons and itinerant electrons, and that its robust AFM order essentially prevents the emergence of superconductivity.

preprint2014arXivOpen access
Dachun GuXia DaiCongcong LeLiling SunQi WuBayrammurad SaparovJing GuoPeiwen GaoShan ZhangYazhou ZhouChao ZhangLun XiongRui LiYanchun LiXiaodong LiJing LiuAthena S. SefatJiangping HuZhongxian Zhao
cond-mat.supr-con
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Dachun GuXia DaiCongcong LeLiling SunQi WuBayrammurad SaparovJing GuoPeiwen GaoShan ZhangYazhou ZhouChao ZhangLun XiongRui LiYanchun LiXiaodong LiJing LiuAthena S. SefatJiangping HuZhongxian Zhao

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