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Physics of manganites

In the chemical formula AMnO3, oxygen has valence of -2. Thus manganese is trivalent when the ion on A site is +3 valenced, e.g. La3+. Substitution of ions on A sites by divalent ions (Ca2+, Sr2+, etc) results in mixed valenced manganese ions: Mn3+ and Mn4+. The trivalent and tetravalent Mn ions have very different properties in the lattice. The electronic configuration of a Mn3+ ion is 1s22s22p63s23p63d4. Therefore, the 3d shell, being the only partially filled shell, is of interest. When placing the 4 electrons in the five 3d (l=2ml-2, - 1, 0, 1, 2) orbitals, a few relevant interactions, within current context, need to be considered. The first is the on-site Coulomb repulsion energy U between electrons on the same site and same orbital (same ml). U was estimated to be 5.2±0.3 eV and 3.5±0.3 eV for CaMnO3 and LaMnO3respectively, by Park et al.  [95], using photo-emission techniques. The second is the Hund (ferromagnetic) coupling between electrons on different orbitals. The exchange constant JH was suggested to be larger than 1 eV from both experimental and theoretical studies [96,97,98]. Thus, as a result of the strong on-site coulomb repulsion, the four 3d electrons will have their spins lined up in parallel, and occupy 4 of the 5 orbitals, resulting in a total spin of S=2. In the case of Mn4+, we can simply remove one of the four electrons, resulting a total spin of S=3/2.


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