Magnetostrictive Neel ordering of the spin-5/2 ladder compound BaMn2O3: distortion-induced lifting of geometrical frustration

Abstract

The crystal structure and the magnetism of BaMn2O3 have been studied by thermodynamic and by diffraction techniques using large single crystals and powders. BaMn2O3 is a realization of a S = 5/2 spin ladder as the magnetic interaction is dominant along 180 Mn-O-Mn bonds forming the legs and the rungs of a ladder. The temperature dependence of the magnetic susceptibility exhibits well-defined maxima for all directions proving the low-dimensional magnetic character in BaMn2O3. The susceptibility and powder neutron diffraction data, however, show that BaMn2O3 exhibits a transition to antiferromagnetic order at 184 K, in spite of a full frustration of the nearest-neighbor inter-ladder coupling in the orthorhombic high-temperature phase. This frustration is lifted by a remarkably strong monoclinic distortion which accompanies the magnetic transition.