Spin reorientation of the Fe moments in Eu0.5Ca0.5Fe2As2: Evidence for a strong interplay of Eu and Fe magnetism

Abstract

Using complementary polarized and unpolarized single-crystal neutron diffraction, we have investigated the temperature-dependent magnetic structures of Eu0.5Ca0.5Fe2As2. Upon 50 \% dilution of the Eu sites with isovalent Ca2+, the Eu sublattice is found to be still long-range ordered below TEu = 10 K, in the A-typed antiferromagnetic (AFM) structure. The moment size of Eu2+ spins is estimated to be as large as 6.74(4) μB at 2.5 K. The Fe sublattice undergoes a spin-density-wave transition at TSDW = 192(2) K and displays an in-plane AFM structure above TEu. However, at 2.5 K, the Fe2+ moments are found to be ordered in a canted AFM structure with a canting angle of 14(4) out of the ab plane. The spin reorientation of Fe below the AFM ordering temperature of Eu provides a direct evidence of a strong interplay between the two magnetic sublattices in Eu0.5Ca0.5Fe2As2.