Neutron powder diffraction shows Rb1-xV2Te2O orders in a G-type antiferromagnetic structure below 337 K, contrary to prior theoretical predictions for its altermagnetic properties.
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A theoretical proposal for hybrid magnets via heterojunctions of zero-net-magnetization monolayers that enable selective doping-induced net magnetization, verified with tight-binding models and DFT on Cr2C2S6/CrMoC2S6.
Prediction of robust d-wave altermagnetism in RbCr2Se2O and the XCr2Y2O family with strain-induced net magnetization.
citing papers explorer
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G-type antiferromagnetic structure in Rb1-xV2Te2O
Neutron powder diffraction shows Rb1-xV2Te2O orders in a G-type antiferromagnetic structure below 337 K, contrary to prior theoretical predictions for its altermagnetic properties.
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Zero-net-magnetization hybrid magnet
A theoretical proposal for hybrid magnets via heterojunctions of zero-net-magnetization monolayers that enable selective doping-induced net magnetization, verified with tight-binding models and DFT on Cr2C2S6/CrMoC2S6.
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Robust $d$-wave altermagnetism in $\mathrm{XCr_2Y_2O}$ (X=K, Rb, Cs; Y=S, Se, Te) family
Prediction of robust d-wave altermagnetism in RbCr2Se2O and the XCr2Y2O family with strain-induced net magnetization.