Ytterbium-doped silica fiber (YDF) has important applications in material processing and scientific research. The photodarkening (PD) effect, which originates from the formation of color centers, can decrease the laser output power over 1000 h by about 10% and will seriously restrict the power stability of the fiber laser. However, the nature of the PD color centers has not been adequately elucidated until now.

In a recent study, a team from Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, has made a systematical study in PD color centers of YDF. Related work was published on Journal of Non-Crystalline Solids.

In their experiment, a series of YDF core glasses were irradiated with a 193 nm ArF excimer laser for different durations. The species of the UV laser-induced color centers were identified by radiation-induced absorption (RIA), in-situ photoluminescence (PL), and continuous-wave electron paramagnetic resonance (CW-EPR) spectroscopic techniques.

They found that the oxygen hole center and the Yb²⁺ ion pairs were primarily responsible for the UV laser radiation-induced darkening, and their formation was highly dependent on the charge balance between the Yb³⁺ ion and its ligand.

The study also showed that, for the Yb³⁺/Al³⁺ co-doped silica glass, the Yb³⁺ ions were surrounded by electronegative [AlO_4/2] and electroneutral [SiO_4/2]⁰ groups, and the electronegative [AlO_4/2] group favored the formation of the Yb²⁺ and Al-OHC pairs.

This work helps to understand the underlying mechanism of PD effects in YDF.

The research was supported by National Natural Science Foundation of China.

PL, RIA and CW-EPR spectra of YDF core glasses. (Image by SIOM)

Article website:
https://doi.org/10.1016/j.jnoncrysol.2020.120198

Contact:
Mr. CAO Yong
General Administrative Office
Shanghai Institute of Optics and Fine Mechanics, CAS
Email: caoyong@siom.ac.cn