Effect of glass composition on Judd-Ofelt parameters and radiative decay rates of Er3+ fluoride phosphate and phosphate glasses

For fluoride phosphate and phosphate glasses, Judd-Ofelt Ohm(t) parameters, spontaneous emission probabilities, radiative lifetimes and branching ratios of several Er3+ transitions were determined from the absorption spectra by the Judd-Ofelt treatment. The compositional changes of Ohm(2) and Ohm(6) are attributed to changes in the bonding between Er3+ and surrounding ligand groups. The phosphate groups play a special role. They show electron donation from the 2p orbitals of the oxygen ions, as well pi-electron donation from the resonating P-O pi-bond. Larger electron donation from the ligand anions leads to larger Ohm(2), but smaller Ohm(6). By contrast, larger pi-electron donation from the phosphate groups increases Ohm(6). The changes of Ohm(2) with increasing phosphate content and with variation of modifier ions are ascribed to changes in the content and polarizability of the oxygen ions, leading to changes in the electron donation from the ligands at the rare earth (RE) sites. In the case of Pb2+, changes in the degree of asymmetry at the RE sites could also be important. The smaller Ohm(6) parameter of phosphate glasses compared with fluoride phosphate grasses is caused by larger sigma-electron donation due to larger oxygen content and by smaller pi-electron donation due to smaller delocalization of the pi-bonds. The changes of Ohm(6) with phosphate content, in the case of fluoride phosphate glasses and with variation of modifier ions, are dominated by changes in the pi-electron donation. (C) 1998 Elsevier Science B.V. All rights reserved.