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arxiv: 2503.18694 · v2 · pith:5QRMFB2Nnew · submitted 2025-03-24 · ❄️ cond-mat.mtrl-sci

Characterization of Nuclear and Magnetic Structures of Wolframite-Type MgReO4 and ZnReO4

classification ❄️ cond-mat.mtrl-sci
keywords magneticgammamathbfstructuresmathrmmomentcompoundsmuon
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We utilized high-pressure methods to synthesize the oxides AReO$4$ (A=Zn, Mg) and characterized their crystal structures as monoclinic wolframite-type. By combining muon spin spectroscopy ($\mu^+$SR) with DFT calculations for muon stopping sites, we identify two possible magnetic spin structures for both compounds: $\Gamma_3$ with the propagation vector $\mathbf{k} = (0,1/2,0)$ and $\Gamma_4$ with $\mathbf{k} = (0,0,0)$. In both cases, the magnetic moments are canted from the principal axes within the $ac$-plane. The ordered moment of the proposed structures is $\mathbf{0.29(5)~\mu\mathrm{B}}$ for $\Gamma_3$ and $\mathbf{0.25(8)~\mu_\mathrm{B}}$ for $\Gamma_4$. The low moment is consistent with the absence of a magnetic contribution to the neutron powder diffraction (NPD) spectra. Bond valence sum (BVS) analysis supports the oxidation state of Re being Re$^{6+}$ in the compounds, and we suggest that a combination of $t_\mathrm{2g}$ orbital splitting due to spin-orbit coupling (SOC) and $d$-$p$ orbital hybridization is responsible for the strongly suppressed ordered magnetic moment.

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