Spin-glass transition in a La-dopedSr2MnWO6double perovskite

Abstract

Polycrystalline ${\mathrm{Sr}}_{2\ensuremath{-}x}{\mathrm{La}}_{x}\mathrm{Mn}\mathrm{W}{\mathrm{O}}_{6}$ ($x=0.25$ and 0.5) materials have been prepared by a traditional solid state sintering method and studied by neutron powder diffraction (NPD) and magnetization measurements. Rietveld analysis of the temperature dependent NPD data shows that the compounds crystallize in monoclinic symmetry (space group $P{2}_{1}∕n$). The unit cell volume decreases with increasing ${\mathrm{La}}^{3+}$ concentration at the $A$ site. The crystal structure contains alternating $\mathrm{Mn}{\mathrm{O}}_{6}$ and $\mathrm{W}{\mathrm{O}}_{6}$ octahedra, considerably tilted due to the relative small size of the cations that occupy the $A$ sublattice of the perovskite. ac and dc magnetization measurements show a destruction of the low temperature antiferromagnetic phase by electron doping through substitution of ${\mathrm{Sr}}^{2+}$ for ${\mathrm{La}}^{3+}$. The electron doping creates a mixed tungsten valence $({\mathrm{W}}^{6+}∕{\mathrm{W}}^{5+})$ resulting in a low temperature spin-glass state.