Ion bombardment induced surface electrical degradation monitoring by means of luminescence in aluminas

•Correlation between IBIL and surface electrical degradation.•Potential to remotely monitor degradation of insulating materials.•Possibility for in situ recovery of the insulating properties by thermal annealing. Oxide ceramics for use as electrical insulators in future fusion devices, will be expos...

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Veröffentlicht in:	Fusion engineering and design 2013-10, Vol.88 (6-8), p.626-630
Hauptverfasser:	Malo, Marta, Moroño, Alejandro, Hodgson, Eric R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Alumina Degradation Devices Electrical degradation Heating Insulators Ion bombardment Ionization Luminescence Materials testing Resistivity
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container_title	Fusion engineering and design
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creator	Malo, Marta Moroño, Alejandro Hodgson, Eric R.
description	•Correlation between IBIL and surface electrical degradation.•Potential to remotely monitor degradation of insulating materials.•Possibility for in situ recovery of the insulating properties by thermal annealing. Oxide ceramics for use as electrical insulators in future fusion devices, will be exposed to ionization and displacement damage (neutrons, gammas, ion bombardment). Enhanced oxygen loss due to ion bombardment increases surface electrical conductivity, and at the same time the surface emits light due to ion beam induced luminescence (IBIL). Results for 3 types of α-alumina and sapphire measuring electrical surface conductivity and IBIL as a function of dose at different temperatures between 20 and 200°C, show a clear correlation between luminescence and surface electrical degradation. This indicates the potential to remotely monitor insulating material degradation not only in ITER and beyond, but also in the more immediate in-reactor experiments required for materials testing. Partial reduction of degradation by heating in air suggests the possibility for in situ recovery of the insulating properties.
doi_str_mv	10.1016/j.fusengdes.2013.03.013
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Oxide ceramics for use as electrical insulators in future fusion devices, will be exposed to ionization and displacement damage (neutrons, gammas, ion bombardment). Enhanced oxygen loss due to ion bombardment increases surface electrical conductivity, and at the same time the surface emits light due to ion beam induced luminescence (IBIL). Results for 3 types of α-alumina and sapphire measuring electrical surface conductivity and IBIL as a function of dose at different temperatures between 20 and 200°C, show a clear correlation between luminescence and surface electrical degradation. This indicates the potential to remotely monitor insulating material degradation not only in ITER and beyond, but also in the more immediate in-reactor experiments required for materials testing. 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Oxide ceramics for use as electrical insulators in future fusion devices, will be exposed to ionization and displacement damage (neutrons, gammas, ion bombardment). Enhanced oxygen loss due to ion bombardment increases surface electrical conductivity, and at the same time the surface emits light due to ion beam induced luminescence (IBIL). Results for 3 types of α-alumina and sapphire measuring electrical surface conductivity and IBIL as a function of dose at different temperatures between 20 and 200°C, show a clear correlation between luminescence and surface electrical degradation. This indicates the potential to remotely monitor insulating material degradation not only in ITER and beyond, but also in the more immediate in-reactor experiments required for materials testing. 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subjects	Alumina Degradation Devices Electrical degradation Heating Insulators Ion bombardment Ionization Luminescence Materials testing Resistivity
title	Ion bombardment induced surface electrical degradation monitoring by means of luminescence in aluminas
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