Photoluminescence quenching by OH in Er- and Pr-doped glasses for 1.5 and 1.3 mm optical amplifiers

In this paper we report on the effect of hydroxyl (OH) groups on the photoluminescence in the near IR (1.5 and 1.3 mm) in rare earth (Er, Pr)-doped glasses. The 1.5 mm emission of Er-doped phosphate glasses was studied, before and after a special heat treatment. The luminescent lifetime of the 1.5 mm emission increases substantially, typically from 3 ms up to 7.2 ms for a 2 mol% Er2O3-doped phosphate glass, due to the controlled heat treatment. The increase in lifetime is ascribed to a decrease in OH-concn., which is confirmed by IR-absorption spectroscopy. The quenching by OH is described by a simplified quenching model, which predicts the 1.5 mm emission lifetime as a function of Er-concn. with the OH-concn. as parameter. It appears that the larger part of the OH groups is coupled to Er ions and thus acts as quenching center. Photoluminescence quenching by OH groups is also reported for the 1.3 mm emission of Pr in GeS2-glasses: in pure OH-free GeS2 glass the 1.3 mm emission lifetime is as high as 350 ms, for a 400 ppm dopant level. In GeS2 glasses contg. only small amts. of OH (approx. 100 ppm), this lifetime is less than 200 ms. Both examples demonstrate that for the fabrication of efficient glass optical amplifiers at the telecommunication windows 1.3 and 1.5 mm, the OH-impurity level of the host glass must be kept as low as possible. [on SciFinder (R)]