S. A. Kazanskiĭ scite author profile

Disordered fluorite-related solid solutions ͑AF 2 ͒ 1−x−y ͑LnЈF 3 ͒ x ͑LnЉF 3 ͒ y , where A = Ca, Sr, Ba; LnЈ = Er, Tm, Yb; LnЉ = Lu, Y; and x Ӷ y = 0.001-0.4, were studied by both optical detection and conventional electron paramagnetic resonance ͑EPR͒ techniques. The EPR spectra of paramagnetic rare-earth ions Er 3+ , Tm 3+ , and Yb 3+ in clusters of diamagnetic Y 3+ and Lu 3+ ions were recorded. It appears that the crystalline electric field at the sites of Ln ions in the clusters is of "nearly" tetragonal symmetry and provides for high values of factors g ʈ , approaching the theoretical limits, and small values of factors g Ќ ϳ 0 in the ground states of the paramagnetic Ln ions. It was assumed that all the clusters of Ln ions in the solid solutions appear to be similar in structure to the hexameric clusters, which are the basic structural units of the homologous series of fluoriterelated superstructures ͑AF 2 ͒ 1−y ͑LnF 3 ͒ y with compositions y =5/m, where m is an integer in the range of 13-19. The structure of "symmetric" hexameric clusters in CaF 2 , SrF 2 , and BaF 2 hosts was established by computer simulation. The crystalline electric field and the spectroscopic ground-state parameters for Er 3+ , Tm 3+ , and Yb 3+ ions in the hexameric clusters were calculated and found to be in agreement with the experimental data, being totally different from those known for the "isolated" simple cubic and tetragonal centers in the fluorite crystals.

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Electron statistics in CdF2 semiconductor crystals with DX centers

Kazanskiĭ

Ryskin

2006

Phys. Solid State

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A new microwave resonant technique for studying rare earth photoionization thresholds in dielectric crystals under laser irradiation

et al. 2003

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S. A. Kazanskiĭ

Microwave study of photoconductivity induced by laser pulses in rare-earth-doped dielectric crystals

EPR spectra and crystal field of hexamer rare-earth clusters in fluorites

Electron statistics in CdF2 semiconductor crystals with DX centers

A new microwave resonant technique for studying rare earth photoionization thresholds in dielectric crystals under laser irradiation

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