Physicochemical state and electrical transport in inorganic dielectric materials after ion-heat modification. 2. Electrical transport

A. V. Kabyshev, F. V. Konusov, V. V. Lopatin

Research output: Contribution to journalArticle

Abstract

Electrical conductivity of heat-resistant inorganic dielectrics after ion-heat modification has been studied at direct and alternating current. The spectrum of states localized in the gap has been determined by optical techniques and thermoactivation spectroscopy of conductivity and thermally stimulated luminescence. Participation of additional localized states originating from irradiation and subsequent annealing in electrical transport adds jumping transport to activation conductivity. Jumping transport parameters have been determined. An analysis of the spatial and energetic distribution of localized states has been carried out.

Original languageEnglish
Pages (from-to)905-915
Number of pages11
JournalSurface Investigation X-Ray, Synchrotron and Neutron Techniques
Volume12
Issue number8
Publication statusPublished - 1997

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Ions
heat
conductivity
Luminescence
alternating current
spatial distribution
ions
direct current
Chemical activation
Irradiation
Spectroscopy
activation
Annealing
luminescence
electrical resistivity
irradiation
annealing
spectroscopy
Hot Temperature
Electric Conductivity

ASJC Scopus subject areas

  • Surfaces and Interfaces

Cite this

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abstract = "Electrical conductivity of heat-resistant inorganic dielectrics after ion-heat modification has been studied at direct and alternating current. The spectrum of states localized in the gap has been determined by optical techniques and thermoactivation spectroscopy of conductivity and thermally stimulated luminescence. Participation of additional localized states originating from irradiation and subsequent annealing in electrical transport adds jumping transport to activation conductivity. Jumping transport parameters have been determined. An analysis of the spatial and energetic distribution of localized states has been carried out.",
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N2 - Electrical conductivity of heat-resistant inorganic dielectrics after ion-heat modification has been studied at direct and alternating current. The spectrum of states localized in the gap has been determined by optical techniques and thermoactivation spectroscopy of conductivity and thermally stimulated luminescence. Participation of additional localized states originating from irradiation and subsequent annealing in electrical transport adds jumping transport to activation conductivity. Jumping transport parameters have been determined. An analysis of the spatial and energetic distribution of localized states has been carried out.

AB - Electrical conductivity of heat-resistant inorganic dielectrics after ion-heat modification has been studied at direct and alternating current. The spectrum of states localized in the gap has been determined by optical techniques and thermoactivation spectroscopy of conductivity and thermally stimulated luminescence. Participation of additional localized states originating from irradiation and subsequent annealing in electrical transport adds jumping transport to activation conductivity. Jumping transport parameters have been determined. An analysis of the spatial and energetic distribution of localized states has been carried out.

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