Electronics and information technologies / Електроніка та інформаційні технології

The luminescence spectra of Bi₄Ge₃O₁₂ (BGO) thin films activated with Si, Mn, Tb, and Eu under X-ray, cathodic, and photoexcitation have been studied. BGO films (thickness 0.5–1.5 μm) activated with Si, Mn, Eu, Tb and their combination were obtained by the method of discrete evaporation in vacuum on fused quartz substrates. The content of activators in different samples varied in the range of 0.1–5.0 mol%. After sputtering, the films were annealed in air at 8500C. X-ray diffraction studies have shown the presence of a polycrystalline structure of the films with a predominant orientation in the (211), (310), and (312) planes.

It was found that the luminescence spectra of the activated films, as well as of pure BGO films under different types of excitations, consist of three bands with maxima at 2.7, 2.4, and 2.05 eV. The decomposition of the spectra into individual bands was carried out by the Alentsev-Fock method using a set of luminescence spectra under different types of excitations. It is shown that the introduction of the activator leads to a relative increase in the intensity of all three luminescence bands, but this is most effective for the band with a maximum of 2.4 eV. It should also be noted that at an activator concentration exceeding 2 mol%, a concentration quenching of the luminescence intensity is observed.

It has been found that under laser excitation in BGO thin films activated with Tb³⁺ and Eu³⁺ ions of rare earth metals, the luminescence spectra are caused by electronic transitions inside the activator ions. Analyzing the real point symmetry of the Bi³⁺ environment, it is assumed that in the process of activation of BGO thin films, the rare earth ions Tb³⁺ and Eu³⁺, which appear in the luminescence, replace Bi³⁺ ions. It is proposed that this luminescence is most likely due to the direct excitation of activator ions, since the excitation energy of the nitrogen laser ЛГИ-21 falls within the excitation region of the studied rare-earth activator ions. The interpretation of the selected luminescence bands is considered.

Key words: bismuth orthogermanate, activator, luminescence spectrum, cathodoluminescence, X-ray luminescence.

1. M. Nikl. Nanocomposite, Ceramic, and Thin Film Scintillators / Pan Stanford Publishing Pte. Ltd, 2017. – 338 p.
2. L. Yuan, H. Ni, J. Chen, G. Song, X. Qi, X. Li, T. Karaki, D. Wang. Effects of annealing on the optical and scintillation properties of reddish Bi₄Ge₃O₁₂ single crystals // Ceramics International – 2021. – Vol. 47. – 11856–11861. DOI: 10.1016/j.ceramint.2021.01.025
3. T. Yanagida, M. Koshimizu. Phosphors for Radiation Detectors / Wiley, 2022. – 394 p.
4. S. O. Akande, O. Bouhali. First‑principles studies of defect behaviour in bismuth germanate // Scientific Reports – 2022. – Vol. 12. – 15728. DOI: 10.1038/s41598-022-18586-x
5. О.М. Бордун. Центри люмінесценції в ортогерманаті вісмуту // УФЖ – 2001. – Т. 46. – 1139 – 1143.
6. S. M. Kaczmarek, T. Tsuboi, Y. Nakai, M. Berkowski, W. Huang, Z. Kowalski. Temperature dependence of Bi₄Ge₃O₁₂ photoluminescence spectra // Materials Science-Poland. – 2014. – Vol. 32. – 7–11. DOI: 10.2478/s13536-013-0148-y
7. М.В. Фок. Разделение сложных спектров на индивидуальные полосы при помощи обобщенного метода Аленцева // Тр.ФИАН. – 1972. – Т.59. – С.3–24.
8. O.M. Bordun, I.I. Kukharskii, V.G. Antonyuk. Luminescence of Thin Bismuth Germanate Films Having the Structure of Eulitine and Benitoite // J. Appl. Spectrosc. – 2005. – Vol. 72. – 403–406. DOI: 10.1007/s10812-005-0089-2
9. X. Xiao, J. Xu, H. Wei, Y. Chu, B. Yang, X. Zhang. Optical and scintillation properties of Bi₄Si₃O₁₂:RE (RE=Eu³⁺, Sm³⁺, Ho³⁺, Tb³⁺) single crystals // J. of Rare Earths. – 2019. –Vol. 37. – 260–264. DOI: 10.1016/j.jre.2018.05.022
10. Y. Tuncer Arslanlar, Z. Kotan, R. Kibar, A. Canımoğlu, N. Can. Rare Earth Photoluminescence in Bismuth-Germanate Crystals // Spectroscopy Letters – 2013. – Vol. 46. – 590–596. DOI: 10.1080/00387010.2013.771370
11. R. Kibara, A.Çetin, Y. Tuncer, S. Uysal, P.D Townsend, A. Canimoglu, T.Karali, N. Can. Cathodoluminescence Response from Rare Earth Doped Bi₄Ge₃O₁₂ // Physics Procedia – 2009. – Vol. 2. – 379–390. DOI: 10.1016/j.phpro.2009.07.023
12. R. Moncorge, B. Jacquier, G. Boulon. Temperature dependent luminescence of Bi₄Ge₃O₁₂ discussion on possible models // J.Luminescence. – 1976. – Vol. 14. – 337–348. DOI:10.1016/S0022-2313(76)91152-2