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Abstract
The ionic conduction of S53P4 glass has been investigated by a combination of electric field assisted ion exchange and thermal electro-poling experiments. The dominant charge carrier being mobile in native S53P4 is identified to be the Na+ ion. By means of alkali proton substitution and alkali deuteron substitution the diffusion coefficient, D(Na+), has been determined. It is found to vary over 2 orders of magnitude due to the distribution of site energies in the potential energy landscape of the glass. The Ca++ ions appear immobile under the conditions of the APS and ADS experiments. However, Ca++ ions become mobile under the conditions of thermal electro-poling. The diffusion coefficient for Ca++ ions, D(Ca++), turns out to be five orders of magnitude smaller than D(Na+) in the bulk.
Supplementary materials
Title
Supplementary material on APS / ADS and Electro-poling of S53P4 Glass
Description
This supplement provides information on data handling and normalization, analysis of concentration depth profiles and evolution of electric potentials / fields during the experiments.
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