Abstract
The spin-orbit Mott state in the novel quasi-2D iridate Ba 2IrO4 was studied on crystal structure, electrical resistivity, magnetic susceptibility, and μSR experiments. Ba 2IrO4 crystallizes in a K2NiF4-type structure (I4/mmm, a = 4.030(1) Å and c = 13.333(4) Å) which includes IrO2 square planer lattices with straight Ir-O-Ir bonds. The minimal Mott-gap size is ∼70 meV The magnetic ground state is antiferromagnetic long-range order (TN ∼ 240 K) without spin canting. The magnetic moment (|μ| ∼ 0.34 μB/Ir) is much reduced by a low-dimensional quantum spin fluctuation with a large intra-plane correlation |J|. The critical exponent (β ∼ 0.18) suggests that the magnetic state is classified into 2-D X-Y or (anisotropic) Heisenberg spin systems with weak 3-D interlayer coupling |J'|.
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Isobe, M., Okabe, H., Takayama-Muromachi, E., Koda, A., Takeshita, S., Hiraishi, M., … Akimitsu, J. (2012). Spin-orbit mott state in the novel quasi-2D antiferromagnet Ba 2IrO4. In Journal of Physics: Conference Series (Vol. 400). Institute of Physics Publishing. https://doi.org/10.1088/1742-6596/400/3/032028
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