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Thermal evolution of quasi-1D spin correlations within the anisotropic triangular lattice of α-NaMnO₂
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Thermal evolution of quasi-1D spin correlations within the anisotropic triangular lattice of α-NaMnO₂
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Magnetic order on the spatially anisotropic triangular lattice of $\alpha$-NaMnO$_2$ is studied via neutron diffraction measurements. The transition into a commensurate, collinear antiferromagnetic ground state with $\mathbf{k}=(0.5, 0.5, 0)$ was found to occur below $T_\mathrm{N}=22$ K. Above this temperature, the transition is preceded by the formation of a coexisting, short-range ordered, incommensurate state below $T_\mathrm{{IC}}=45$ K whose two dimensional propagation vector evolves toward $\mathbf{k}=(0.5, 0.5)$ as the temperature approaches $T_{\mathrm{N}}$. At high temperatures ($T>T_\mathrm{{IC}}$), quasielastic scattering reveals one-dimensional spin correlations along the nearest neighbor Mn-Mn "chain direction" of the MnO$_6$ planes. Our data are consistent with the predictions of a mean field model of Ising-like spins on an anisotropic triangular lattice, as well as the predominantly one-dimensional Heisenberg spin Hamiltonian reported for this material.
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