Li₂NiGe₃O₈ shows frustrated magnetic correlations on its S=1 trillium lattice, with a broad heat capacity maximum near 3 K and 88% entropy recovery consistent with spin-ice-like behavior.
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Synthesis and characterization of AOsO4 (A=K, Rb, Cs) show antiferromagnetic transitions at 36.9 K and 21 K for K and Rb, a structural transition at 152.5 K for Cs without magnetic order, and reduced Os moments attributed to orbital contributions.
Na doping on the Sn site in Na1+xSn2-xAs2 raises Tc to 2.1 K at x=0.4, with DFT indicating NaSn antisite defects are energetically favored.
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Frustrated Magnetism of the $S = 1$ Trillium-Lattice Oxide Li$_2$NiGe$_3$O$_8$
Li₂NiGe₃O₈ shows frustrated magnetic correlations on its S=1 trillium lattice, with a broad heat capacity maximum near 3 K and 88% entropy recovery consistent with spin-ice-like behavior.
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Crystal structure and the magnetic properties of the 5d transition metal oxide AOsO4 (A = K, Rb, Cs)
Synthesis and characterization of AOsO4 (A=K, Rb, Cs) show antiferromagnetic transitions at 36.9 K and 21 K for K and Rb, a structural transition at 152.5 K for Cs without magnetic order, and reduced Os moments attributed to orbital contributions.
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Enhanced superconductivity by Na doping in SnAs-based layered compound Na$_{1+x}$Sn$_{2-x}$As$_2$
Na doping on the Sn site in Na1+xSn2-xAs2 raises Tc to 2.1 K at x=0.4, with DFT indicating NaSn antisite defects are energetically favored.