• Investigation of ion-ion interaction effects on Yb3+-doped fiber amplifiers

      Wu, Jingwei; Zhu, Xiushan; Xia, Chun; Wei, Hua; Wiersma, Kort; Li, Michael; Zong, Jie; Chavez-Pirson, Arturo; Norwood, R. A.; Peyghambarian, N.; et al. (OPTICAL SOC AMER, 2019-09-19)
      Ytterbium (Yb3+)-doped materials have been widely used for high efficiency high energy laser sources at the 1 mu m wavelength region because of their very low quantum defect and the unique simple energy level structure of Yb3+, resulting in no excited-state absorption and low occurrence probability of deleterious ion-ion interaction processes. It has been generally recognized that these ion-ion interaction processes have very little influence on the operation of Yb3+-doped fiber lasers at low and moderate power levels. However, our recent study shows that the performance of Yb3+-doped fiber amplifiers operating at low power levels is still influenced by the ion-ion interaction processes due to the large amount of population at the upper laser level F-2(5/2). In this paper, experimental evidences of the ion-ion interaction effects in Yb3+-doped fiber amplifiers are presented and a new model including these effects is developed for the numerical simulation. Our experimental and numerical investigations on the 976 nm and 1030 nm Yb3+-doped silica and phosphate fiber amplifiers show that ion-ion interaction has non-negligible impact on the performance of Yb3+-doped fiber amplifiers indeed, and compared to Yb3+-doped silica fibers, Yb3+-doped phosphate fibers suffer much less from the ion-ion interaction effects due to the much less clustered ions. (C) 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement