Nd3+-doped silica glass and fiber prepared by modified sol-gel method
Yinggang Chen, Zhiquan Lin, Yafei Wang, Meng Wang, Lei Zhang, Yan Jiao, Hehe Dong, Shikai Wang, Chunlei Yu, Lili Hu
Abstract
Large-size Al 3 =Nd 3 co-doped silica glass with 5000 ppm Nd 3 and 50,000 ppm Al 3 doping concentrations was prepared by the modified sol-gel method combined with high-temperature melting and molding technology. Electron probe microanalyzer tests indicated that high doping homogeneity was achieved with this sample preparation method. The spectral properties of the Nd 3 ions were evaluated. Nd 3 -doped silica fiber (NDF) with a core-to-clad ratio of 20/125 m was drawn from the preform with the Al 3 =Nd 3 co-doped silica glass as the core. In the laser oscillation experiment, a maximum output power of 14.6 W at 1.06 m with a slope efficiency of 39.6% was obtained from the NDF pumped by a commercial 808 nm laser diode. To the best of our knowledge, this is the highest laser power reported for an NDF operated at 1060 nm and prepared by a non-chemical vapor deposition method. In the master oscillator power amplifier experiment, a maximum power of 16.6 W corresponding to a slope efficiency of 30.5% at 1061 nm was also demonstrated. The laser performance of the NDF exhibited the great advantages and potential of the modified sol-gel method in fabricating Nd 3 -doped silica glass for a new type of NDFs like large mode area fibers and fibers with large diameter ratio of core/cladding.