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Paper detail

Distinct Electronic Structure for the Extreme Magnetoresistance in YSb

An extreme magnetoresistance (XMR) has recently been observed in several non-magnetic semimetals. Increasing experimental and theoretical evidence indicates that the XMR can be driven by either topological protection or electron-hole compensation. Here, by investigating the electronic structure of a XMR material, YSb, we present spectroscopic evidence for a special case which lacks topological protection and perfect electron-hole compensation. Further investigations reveal that a cooperative action of a substantial difference between electron and hole mobility and a moderate carrier compensation might contribute to the XMR in YSb.

preprint2016arXivOpen access
Junfeng HeChaofan ZhangNirmal J. GhimireTian LiangChunjing JiaJuan JiangShujie TangSudi ChenYu HeS. -K. MoC. C. HwangM. HashimotoD. H. LuB. MoritzT. P. DevereauxY. L. ChenJ. F. MitchellZ. -X. Shen
cond-mat.str-elcond-mat.mtrl-sci
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Junfeng HeChaofan ZhangNirmal J. GhimireTian LiangChunjing JiaJuan JiangShujie TangSudi ChenYu HeS. -K. MoC. C. HwangM. HashimotoD. H. LuB. MoritzT. P. DevereauxY. L. ChenJ. F. MitchellZ. -X. Shen

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