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Mechanisms of fluorescence enhancement in rare earth sol-gel glass containing Al |
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| Authors: | A.J. Silversmith A.P. Beyler D.M. Boye |
| Affiliation: | a Physics Department, Hamilton College, 198 College Hill Road, Clinton, NY 13323, USA b Davidson College, Davidson, NC 28035, USA c Whitman College, Walla Walla, WA 99362, USA |
| Abstract: | Analysis of glasses containing Eu and Tb dopants yields new insights about the role of Al3+ co-doping in improving fluorescence yield of glasses containing rare earth (RE) dopants. Our work suggests that Al co-doping enhances fluorescence by two important mechanisms. (1) At low Al:RE ratio the site symmetry is lowered, allowing more admixture of opposite parity wavefunctions and increased transition probability. (2) At high Al:RE ratio, the highest frequency phonons are of lower energy; so nonradiative decay rates are reduced. In addition, a new technique - post-annealing immersion - is introduced, which allows the study of RE location in the sol-gel matrix. Al co-doping is observed to increase the tendency for RE ions to reside on pore surfaces. |
| Keywords: | Sol-gel glass Rare earth Energy transfer |
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