RADIATION EFFECTS IN DIELECTRIC MATERIALS

Some ideas on the theory of polarization in insulators are presented. Several experiments to provide information necessary to develop the theory are outlined. One experiment demonstrates that the rate of buildup and decay of the polarization in sapphire are the same and that the fluence dependence o...

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Hauptverfasser:	Harrity, John W, Leadon, Roland E
Format:	Report
Sprache:	eng
Schlagworte:	CONDUCTIVITY Crystallography DAMAGE DIELECTRIC PROPERTIES DOPING DOSE RATE ELECTRICAL IMPEDANCE ELECTRON BEAMS ENERGY INTENSITY PHOTONS POLARIZATION Radioactiv, Radioactive Wastes & Fission Prod SAPPHIRE SEMICONDUCTORS SINGLE CRYSTALS Solid State Physics THICKNESS VOLTAGE
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creator	Harrity, John W Leadon, Roland E
description	Some ideas on the theory of polarization in insulators are presented. Several experiments to provide information necessary to develop the theory are outlined. One experiment demonstrates that the rate of buildup and decay of the polarization in sapphire are the same and that the fluence dependence of the polarization is nonexponential. Irradiation of single-crystal sapphire with a high-energy electron beam shows a linear dependence of induced conductivity on dose rate from 5 x 10,000 to 4 x 10 to the 9th power rads (Si)/sec. New sample materials and preparation techniques are discussed. (Author) Continuation of contract DA-28-043-AMC-01412(E).
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One experiment demonstrates that the rate of buildup and decay of the polarization in sapphire are the same and that the fluence dependence of the polarization is nonexponential. Irradiation of single-crystal sapphire with a high-energy electron beam shows a linear dependence of induced conductivity on dose rate from 5 x 10,000 to 4 x 10 to the 9th power rads (Si)/sec. New sample materials and preparation techniques are discussed. 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subjects	CONDUCTIVITY Crystallography DAMAGE DIELECTRIC PROPERTIES DOPING DOSE RATE ELECTRICAL IMPEDANCE ELECTRON BEAMS ENERGY INTENSITY PHOTONS POLARIZATION Radioactiv, Radioactive Wastes & Fission Prod SAPPHIRE SEMICONDUCTORS SINGLE CRYSTALS Solid State Physics THICKNESS VOLTAGE
title	RADIATION EFFECTS IN DIELECTRIC MATERIALS
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