Lattice-form dependent orbital shape and charge disproportionation in charge- and orbital-ordered manganites

Abstract

The orbital shapes and charge disproportionations at nominal Mn3+ and Mn4+ sites for the charge- and orbital-ordered phases have been studied on half-doped manganites Pr(Sr0.1Ca0.9)2Mn2O7 and Eu0.5Ca1.5MnO4 with double-layer and single-layer Mn-O networks, respectively, by means of x-ray structural analyses, in comparison with Pr0.5Ca0.5MnO3 with the pseudo cubic network. In a single-layer Eu0.5Ca1.5MnO4 system, the (y2-z2)/(z2-x2)-type orbital shape is observed, while the (3y2-r2)/(3x2-r2)-type orbital shape in a pseudo cubic Pr0.5Ca0.5MnO3 system. In a double-layer Pr(Sr0.1Ca0.9)2Mn2O7 system, the orbital shape is found to undergo a large change upon thermally induced rotation of orbital stripe. Furthermore, clear charge disproportionation is observed for the pseudo cubic and double-layer systems, while not in the single-layer system. These results indicate that the orbital shape and charge disproportionation are sensitive to the dimension of Mn-O network.