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Paper detail

Butterfly-shaped magnetoresistance in triangular-lattice antiferromagnet Ag$_2$CrO$_2$

Spintronic devices using antiferromagnets (AFMs) are promising candidates for future applications. Recently, many interesting physical properties have been reported with AFM-based devices. Here we report a butterfly-shaped magnetoresistance (MR) in a micrometer-sized triangular-lattice antiferromagnet Ag$_2$CrO$_2$. The material consists of two-dimensional triangular-lattice CrO$_2$ layers with antiferromagnetically coupled $S$ = 3/2 spins and Ag$_2$ layers with high electrical conductivity. The butterfly-shaped MR appears only when the magnetic field is applied perpendicularly to the CrO$_2$ plane with the maximum MR ratio ($\approx$ 15%) at the magnetic ordering temperature. These features are distinct from those observed in conventional magnetic materials. We propose a theoretical model where fluctuations of partially disordered spins with the Ising anisotropy play an essential role in the butterfly-shaped MR in Ag$_2$CrO$_2$.

preprint2020arXivOpen access
Hiroki TaniguchiMori WatanabeMasashi TokudaShota SuzukiEria ImadaTakashi IbeTomonori ArakawaHiroyuki YoshidaHiroaki IshizukaKensuke KobayashiYasuhiro Niimi
cond-mat.mes-hallcond-mat.mtrl-sci
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Hiroki TaniguchiMori WatanabeMasashi TokudaShota SuzukiEria ImadaTakashi IbeTomonori ArakawaHiroyuki YoshidaHiroaki IshizukaKensuke KobayashiYasuhiro Niimi

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