4.6 Article

Crystal growth and spectral properties of Eu3+-doped La2CaB10O19 single crystals

Journal

OPTICAL MATERIALS
Volume 139, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.optmat.2023.113799

Keywords

Eu3+-LCB single Crystals; Luminescence probe; Judd-ofelt theory

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The crystal growth and spectral properties of Eu3+ doped La2CaB10O19 (Eu3+LCB) single crystals were studied. The results showed that Eu3+ ions first enter La3+ sites and then occupy Ca2+ sites after the nominal atomic ratio of Eu3+ ions exceeds 7%. The 7% Eu3+-LCB single crystal was found to be a promising medium for laser radiation in the visible region.
The invention and commercial application of InGaN/GaN-laser diodes have made it feasible to directly obtain the visible lasing radiation by pumping rare earth (RE) doped laser crystals. Hence searching for new laser crystals with efficient luminescence and applicable optical and physical properties in the visible range is an essential work. Here, the crystal growth and spectral properties of a series of large-size Eu3+ doped La2CaB10O19 (Eu3+LCB) single crystals with the nominal atomic ratios of 3%, 7%, and 10% have been well studied. High-quality Eu3+-LCB single crystals with the size of 45 x 30 x 17 mm3, was grown by top-seeded solution growth (TSSG) method. The luminescence probe was employed as the tool to identify occupation sites, demonstrating that Eu3+ ions enter into La3+ sites first, then occupy Ca2+ sites after the nominal atomic ratio of Eu3+ ions exceeds 7%. Based on the absorption and emission spectra, the intensity parameters, spontaneous transition probability, radiation lifetime, and fluorescence branch ratio for Eu3+-LCB single crystals are studied with the Judd-Ofelt theory. From the transient spectra, the emission cross-section, fluorescence decay lifetime and luminescence quantum efficiency are deduced, which exhibit the maximum performance at the nominal atomic ratio of 7% Eu3+. Combining the luminescence probe and spectral properties, it can be concluded that Eu3+ doped crystals will have the best spectral properties when Eu3+ occupation at the single La3+ sites reaches the maximum in LCB single crystals, which may be universal for RE-doped crystal with two possible occupation sites. Besides, our work demonstrates that the 7% Eu3+-LCB single crystal may be a promising medium for laser radiation in the visible region in comparison with other Eu3+ doped single crystals.

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