Abstract: Electron paramagnetic resonance (EPR), optical absorption, fluorescence, and excitation spectra of ${\mathrm{CsCdBr}}_{3}:1%$ ${\mathrm{Yb}}^{3+}$ single crystals were taken at 4.2 K. An analysis of the dependence of the EPR spectrum on the magnetic-field direction and a comparison of the recorded signal shapes with simulated envelopes over the magnetic dipole transitions of the expected dimers containing all ytterbium isotopes were performed. This allowed us to assign the measured EPR spectra unambiguously to the symmetrical pair center of the type ${\mathrm{Yb}}^{3+}{\ensuremath{-}\mathrm{C}\mathrm{d}}^{2+}$ vacancy-${\mathrm{Yb}}^{3+}$ substituting for three adjacent ${\mathrm{Cd}}^{2+}$ ions in the bromine octahedra chains. A distance of 0.596 nm between the magnetically equivalent ${\mathrm{Yb}}^{3+}$ ions was determined from the line splitting due to magnetic dipole-dipole interaction. An interpretation of the optical spectra in compounds containing $({\mathrm{YbBr}}_{6}{)}^{3\mathrm{\ensuremath{-}}}$ complexes is presented, which is based on a crystal-field theory accounting for an interaction between the ground ${4f}^{13}({\mathrm{Yb}}^{3+})[{4p}^{6}({\mathrm{Br}}^{\mathrm{\ensuremath{-}}}){]}_{6}$ and excited ${4f}^{14}({\mathrm{Yb}}^{2+}{)4p}^{5}(\mathrm{Br})[{4p}^{6}({\mathrm{Br}}^{\mathrm{\ensuremath{-}}}){]}_{5}$ charge-transfer configurations. The observed large splitting of the excited ${}^{2}{F}_{5/2}{(4f}^{13})$ crystal-field multiplet is explained on the basis of a quasiresonant hybridization of the $4f$-hole state with the spin orbitals of the charge-transfer states. With physically reasonable values of the fitted model parameters, the calculated energy level diagram of the ${4f}^{13}$ configuration and the g tensor of the ${\mathrm{Yb}}^{3+}$ ion in the crystal-field ground state are in good agreement with the experimental data.
Publication Year: 2000
Publication Date: 2000-09-15
Language: en
Type: article
Indexed In: ['crossref']
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Cited By Count: 28
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