Glass Physics and Chemistry. Vol. 49, No. 3, Pages 288-292, 2023

V. M. Lisitsyn^a^, *, D. A. Musakhanov^c, T. G. Korzhneva^a, A. V. Strelkova^c, L. A. Lisitsyna^b, M. G. Golkovsky^c, A. M. Zhunusbekov^c, J. T. Karipbaev^c, and A. L. Kozlovsky^c

^cGumilev Eurasian National University, Nur-Sultan, 010008 Republic of Kazakhstan

Abstract—The possibility of radiation synthesis of luminescent ceramics from a mixture of Ba and Mg fluorides and WO₃ oxide is shown for the first time. Synthesis is implemented in a powerful electron beam with an energy of 1.4 MeV by direct exposure of the charge to radiation. It is shown that the characteristic band is observed in the photoluminescence spectrum of the synthesized materials due to the introduction of tungsten, which indicates the incorporation of tungsten into the lattice during radiation synthesis without the use of additional substances in the charge.

Keywords: ceramics, metal fluorides, activator, radiation synthesis, structure, photoluminescence

Synthesis and Characterization of Ceramics BaxMg(2 – x)F4 Activated by Tungsten

Synthesis and Characterization of Ceramics Ba_xMg_{(2 –} _x)F₄ Activated by Tungsten