Controllable structural tailoring for enhanced luminescence in highly Er3+-doped germanosilicate glasses. Academic Article

abstract

• Higher concentrations of rare earth (RE) ions in glass materials would be favorable for the output of single-frequency fiber lasers. In this Letter, we adjusted the topological structure of glass networks through controlling the numbers of non-bridging oxygens (NBOs) and bridging oxygens (BOs) by tuning the composition of the glasses, hence increasing the RE doping concentration of germanosilicate glasses. The increased flexibility of the glass networks favors the distribution of clusters of RE ions to decrease fluorescence quenching, which was validated by both our experimental and theoretical results. To the best of our knowledge, for the first time, a highly Er3+-doped (up to 7mol.%) heavy metal oxide glass was fabricated without quenching by tuning the components of the glass. In addition, we have demonstrated an approach to enhance the fluorescence properties of heavily RE-doped glass materials by tailoring network topology.

authors

• Xu, Shiqing

published proceedings

• Opt Lett

author list (cited authors)

• Cao, W., Huang, F., Wang, Z., Lei, R., Tian, Y., Hua, Y., ... Xu, S.

citation count

• 13

complete list of authors

• Cao, Wenqian||Huang, Feifei||Wang, Zheng||Lei, Ruoshan||Tian, Ying||Hua, Youjie||Wang, Huanping||Zhang, Junjie||Xu, Shiqing

publication date

• July 2018

publisher

• Optica Publishing Group  Publisher

published in

• Optics Letters  Journal

keywords

• 40 Engineering
• 4006 Communications Engineering
• 4009 Electronics, Sensors And Digital Hardware

PubMed Central ID

• 30004486

Digital Object Identifier (DOI)

• 10.1364/OL.43.003281

start page

• 3281

end page

• 3284

volume

• 43

issue

• 14

URL

• http://dx.doi.org/10.1364/ol.43.003281