Spin-Lattice Coupling and Frustrated Magnetism in Fe-doped Hexagonal LuMnO3

Abstract

Strong spin-lattice coupling and prominent frustration effects observed in the 50\% Fe-doped frustrated hexagonal (h)LuMnO3 are reported. A N\'eel transition at T N ≈ 112~K and a possible spin re-orientation transition at T SR ≈ 55~K are observed in the magnetization data. From neutron powder diffraction data, the nuclear structure at and below 300~K was refined in polar P63cm space group. While the magnetic structure of LuMnO3 belongs to the 4 (P6'3c'm) representation, that of LuFe0.5Mn0.5O3 belongs to 1 (P63cm) which is supported by the strong intensity for the (100) reflection and also judging by the presence of spin-lattice coupling. The refined atomic positions for Lu and Mn/Fe indicate significant atomic displacements at T N and T SR which confirms strong spin-lattice coupling. Our results complement the discovery of room temperature multiferroicity in thin films of hLuFeO3 and would give impetus to study LuFe1-xMnxO3 systems as potential multiferroics where electric polarization is linked to giant atomic displacements.