Effect of B <sub>2</sub> O <sub>3</sub> addition on structure and properties of Yb <sup>3+</sup> /Al <sup>3+</sup> /B <sup>3+</sup> ‐co‐doped silica glasses
Mengting Guo, Chongyun Shao, Yang Zhang, Jingbo Yu, Yan Jiao, M. Guzik, G. Boulon, Jinjun Ren, Lili Hu
Abstract
Abstract The homogeneous Yb 3+ /Al 3+ /B 3+ ‐co‐doped silica glasses were prepared via a sol‐gel method. The impact of B 2 O 3 addition on the physical and optical properties and network structure was systematically studied. The network structure was investigated by the Fourier Transform Infrared (FT‐IR), Raman spectra, and Solid State Nuclear Magnetic Resonance (SSNMR). Herein, B 2 O 3 addition can continuously decrease the refractive index and density. When B 2 O 3 is lower than 2 mol%, B 2 O 3 addition can obviously decrease the scalar crystal field parameters, Yb 3+ asymmetry degree, Yb 3+ cross‐sections, due to the generation of Yb–O–B bonds at the cost of partial Yb–O–Al/Si ones. When B 2 O 3 is more than 2 mol%, FT‐IR, Raman spectra, and SSNMR results indicate that further increased B atoms prefer to connect with Si and Al rather than Yb. Consequently, the above parameters are basically unchanged. Based on the results, an intuitive model of structure and properties evolution during the substitution of SiO 2 by B 2 O 3 has been established.