Hagar Elkholy scite author profile

Samarium-doped lead oxyflouroborate glasses of 60 B 2 O 3 -xPbO-(40-x)LiF where (x=0-30 mol%) with 3910 20 ions/cm 3 of Sm 2 O 3, were prepared by melt quenching. UVVis absorption, photo luminescence (PL) and cathode luminescence (CL) spectroscopies were used to study the effect of varying PbO content on the spectroscopic properties of these samarium-doped glasses. The absorption of the UV-edge shifts toward higher wavelengths, not only because of higher polarizability of lead ions, but also because of the strong allowed s-p transition of Pb 2+ . Judd-Ofelts parameters were determined and indicate that the asymmetry around Sm 3+ ions increases with increasing PbO content. Ω 2 probes the asymmetry by the ratio of intensity of the hypersensitive transition ( 6 H 9/2 ) to that of purely magnetic ( 6 H 5/2 ) transition. Furthermore, an increase in the spectroscopic quality factor (Ω 4 /Ω 6 ) was observed with increasing PbO content which indicates that these glasses have the potential to be used as efficient active laser glasses. The calculated energy transfer parameter increases with increasing PbO content. Also, stark splitting increases with increasing PbO concentrations. FWHM of the CL emission peaks and stark splitting, are found to be much larger than that in PL. This was explained by the high electric field generated from the exciting electron pulses. K E Y W O R D S amorphous materials, cathode luminescence, Judd-Ofelt parameters, optical properties, photo luminescence

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Thermal and optical properties of binary magnesium tellurite glasses and their link to the glass structure

Elkholy

Othman

Hager

et al. 2020

Journal of Alloys and Compounds

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Hagar Elkholy

FTIR of binary lead borate glass: Structural investigation

Spectroscopic study of the role of alkaline earth oxides in mixed borate glasses - site basicity, polarizability and glass structure

Spectroscopic investigation of samarium‐doped lead oxyflouroborate glasses using photo and cathode luminescence

Thermal and optical properties of binary magnesium tellurite glasses and their link to the glass structure

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