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We performed first-principles configuration–interaction calculations of multiplet energies for Mn4+ in K2SiF6, K2GeF6, and K2TiF6 crystals. The results indicate that corrections based on a single-electron calculation are effective for the prediction of 4A2 → 4T2 and 4A2 → 4T1a transition energies, while such corrections are not necessary for the prediction of the 4A2 → 2E transition energy. The cluster size dependence of the multiplet energies is small. However, the 4A2 → 2E transition energy is slightly improved by using larger clusters including K ions. The theoretical multiplet energies are improved further by considering the lattice relaxation effect. As a result, the characteristic multiplet energy shifts depending on the host crystal are well reproduced without using any empirical parameters. Although K2GeF6 and K2TiF6 have lower symmetry than K2SiF6, the results indicate that the variation of the multiplet energy is mainly determined by the Mn–F bond length.

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Mega Novita

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Comparative Study of Multiplet Structures of Mn⁴⁺ in K₂SiF₆, K₂GeF₆, and K₂TiF₆ Based on First-Principles Configuration–Interaction Calculations

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Mega Novita

Study of multiplet structures of Mn4+ activated in fluoride crystals

Comparative Study of Multiplet Structures of Mn4+in K2SiF6, K2GeF6, and K2TiF6Based on First-Principles Configuration–Interaction Calculations

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Enhance electron-correlation effect on the ruby multiplet energy dependence on pressure

Comparative Study of Multiplet Structures of Mn4+ in K2SiF6, K2GeF6, and K2TiF6 Based on First-Principles Configuration–Interaction Calculations

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Resources

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Comparative Study of Multiplet Structures of Mn⁴⁺in K₂SiF₆, K₂GeF₆, and K₂TiF₆Based on First-Principles Configuration–Interaction Calculations

Comparative Study of Absorption Spectra of V²⁺, Cr³⁺, and Mn⁴⁺in α-Al₂O₃Based on First-Principles Configuration–Interaction Calculations

Comparative Study of Multiplet Structures of Mn⁴⁺ in K₂SiF₆, K₂GeF₆, and K₂TiF₆ Based on First-Principles Configuration–Interaction Calculations