One-Center Charge Transfer Transitions in Manganites

Abstract

In frames of a rather conventional cluster approach, which combines the crystal field and the ligand field models we have considered different charge transfer (CT) states and O 2p-Mn 3d CT transitions in MnO69- octahedra. The many-electron dipole transition matrix elements were calculated using the Racah algebra for the cubic point group. Simple "local" approximation allowed to calculate the relative intensity for all dipole-allowed π -π and σ -σ CT transitions. We present a self-consistent description of the CT bands in insulating stoichiometric LaMn3+O3 compound with the only Mn3+ valent state and idealized octahedral MnO69- centers which allows to substantially correct the current interpretation of the optical spectra. Our analysis shows the multi-band structure of the CT optical response with the weak low-energy edge at 1.7 eV, associated with forbidden t1g(π)-eg transition and a series of the weak and strong dipole-allowed high-energy transitions starting from 2.5 and 4.5 eV, respectively, and extending up to nearly 11 eV. The most intensive features are associated with two strong composite bands near 4.6 4.7 eV and 8 9 eV, respectively, resulting from the superposition of the dipole-allowed σ -σ and π -π CT transitions. These predictions are in good agreement with experimental spectra. The experimental data point to a strong overscreening of the crystal field parameter Dq in the CT states of MnO69- centers.

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