Optical properties and radiative rates of Nd³⁺ doped zinc-sodium phosphate glasses

A.A.El-Maaref¹，Shimaa Badr²，Kh.S.Shaaban³，E.A.Abdel Wahab¹，M.M.ElOkr¹

1. Physics Department, Faculty of Science, Al-Azhar University2. Modern Academy for Engineering & Technology3. Chemistry Department, Faculty of Science, Al-Azhar University

摘 要：Preparation using melt quenching technique and optical characterizations of Nd³⁺ doped Zn-Na phosphate glasses are presented. The structure of the present glasses was studied using X-ray diffraction and FT-IR spectroscopy. UV-vis spectra of the present glasses were analyzed at different concentrations of Nd₂ O₃. The effect of neodymium concentration on the density and energy band gap was investigated. The density of the present glasses slightly increases with the increasing of Nd₂ O₃. A small variation of energy band gap with the increasing of neodymium content is observed as well, while E_g values decrease with the increase of Nd₂ O₃ content. The E_g values lie between 4.36 and 4.69 eV. Based on the measured optical spectra, Judd-Ofelt theory was used to determine the optical parameters such as line strengths, optical intensity parameters（Ω_t）, transition probabilities, and transition lifetimes. Hypersensitive transitions were identified in the absorption spectrum, the greatest line strengths are recorded at the transitions² G_7/2+ ⁴ G_5/2, ⁴ S_3/2 + ⁴ F_7/2 and ⁴ D_1/2 + ⁴ D_3/2+ ⁴ D_5/2 + ² I_11/2 with wavelengths of 580, 475 and 355 nm,respectively. Lifetimes of the important ⁴ F_3/2 laser-level were determined; which show decreasing trend with the increasing of Nd₂ O₃ content and are found to be between 0.838 and 1.595 ms. The uncertainty of the present results was estimated. The RMS deviations were determined, which show lower values than those in the literature.

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