Fast migration of alkali ions in glass irradiated by electrons

Alkali-ion-containing glass irradiated by an electron probe undergoes changes in the glass structure. During irradiation, the exposed volume of the glass rapidly changes structure that reflects in a fast decay of alkali X-ray intensities. The decay normally follows after some incubation period that...

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Veröffentlicht in:	Journal of non-crystalline solids 1999-04, Vol.246 (1), p.1-8
Hauptverfasser:	Gedeon, Ondrej, Jurek, Karel, Hulı́nský, Václav
Format:	Artikel
Sprache:	eng
Schlagworte:	Condensed matter: structure, mechanical and thermal properties Diffusion in solids Disordered solids Exact sciences and technology Glasses Physics Self-diffusion and ionic conduction in nonmetals Structure of solids and liquids crystallography Transport properties of condensed matter (nonelectronic)
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container_title	Journal of non-crystalline solids
container_volume	246
creator	Gedeon, Ondrej Jurek, Karel Hulı́nský, Václav
description	Alkali-ion-containing glass irradiated by an electron probe undergoes changes in the glass structure. During irradiation, the exposed volume of the glass rapidly changes structure that reflects in a fast decay of alkali X-ray intensities. The decay normally follows after some incubation period that depends on the characteristics of the probe. Incubation periods and the slopes of the decay curves are determined experimentally for a K 2O–CaO–SiO 2 ternary glass. A model explaining the nature of the observed phenomena is suggested. The bombardment by high energy electrons causes the production of `doubly' ionized alkalis. This new species of alkalis is accelerated by the electric field being created by the electron beam. A spontaneous migration begins as soon as the number of released alkalis reaches a critical percolation point. The new activation energies, percolation thresholds and effective ionization cross sections at the percolation point are calculated according to the suggested model.
doi_str_mv	10.1016/S0022-3093(99)00083-6
format	Article
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During irradiation, the exposed volume of the glass rapidly changes structure that reflects in a fast decay of alkali X-ray intensities. The decay normally follows after some incubation period that depends on the characteristics of the probe. Incubation periods and the slopes of the decay curves are determined experimentally for a K 2O–CaO–SiO 2 ternary glass. A model explaining the nature of the observed phenomena is suggested. The bombardment by high energy electrons causes the production of `doubly' ionized alkalis. This new species of alkalis is accelerated by the electric field being created by the electron beam. A spontaneous migration begins as soon as the number of released alkalis reaches a critical percolation point. 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During irradiation, the exposed volume of the glass rapidly changes structure that reflects in a fast decay of alkali X-ray intensities. The decay normally follows after some incubation period that depends on the characteristics of the probe. Incubation periods and the slopes of the decay curves are determined experimentally for a K 2O–CaO–SiO 2 ternary glass. A model explaining the nature of the observed phenomena is suggested. The bombardment by high energy electrons causes the production of `doubly' ionized alkalis. This new species of alkalis is accelerated by the electric field being created by the electron beam. A spontaneous migration begins as soon as the number of released alkalis reaches a critical percolation point. 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During irradiation, the exposed volume of the glass rapidly changes structure that reflects in a fast decay of alkali X-ray intensities. The decay normally follows after some incubation period that depends on the characteristics of the probe. Incubation periods and the slopes of the decay curves are determined experimentally for a K 2O–CaO–SiO 2 ternary glass. A model explaining the nature of the observed phenomena is suggested. The bombardment by high energy electrons causes the production of `doubly' ionized alkalis. This new species of alkalis is accelerated by the electric field being created by the electron beam. A spontaneous migration begins as soon as the number of released alkalis reaches a critical percolation point. 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subjects	Condensed matter: structure, mechanical and thermal properties Diffusion in solids Disordered solids Exact sciences and technology Glasses Physics Self-diffusion and ionic conduction in nonmetals Structure of solids and liquids crystallography Transport properties of condensed matter (nonelectronic)
title	Fast migration of alkali ions in glass irradiated by electrons
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