Low-temperature orthorhombic phase stabilization and magneto-dielectric coupling in Mn_2.7Cr_0.3O₄

Spinel Mn_2.7Cr_0.3O₄ exhibits ferrimagnetic transition and dielectric anomaly simultaneously around 45K. This suggests a correlation between magnetic and dielectric behaviors. A temperature-dependent neutron powder diffraction study revealed a simultaneous structural (tetragonal to orthorhombic phase) and magnetic transition in Mn_2.7Cr_0.3O₄, i.e., the magnetic and structural transitions are linked. These results suggests the spin-lattice coupling controls magneto-dielectric behaviour of Mn_2.7Cr_0.3O₄. The magnetic structure obtained from neutron diffraction study suggests that intrachain octahedral-octahedral exchange interaction is the most prominent interaction which provides canted antiferromagnetic (AFM) spin arrangement to the system. This results is contrary to the general belief that interaction between tetrahedral-octahedral cations are most prominent in the spinel systems.