Non-Langevin recombination and radiation-induced conductivity in disordered dielectrics

Author

Arkhipov, Vladimir

Author_Institution

Moscow Eng. Phys. Inst., Russia

fYear

1995

fDate

17-20 Sep 1995

Firstpage

383

Lastpage

386

Abstract

Experimental data on radiation-induced conductivity (RIC) in disordered dielectrics are usually interpreted in terms of trap-controlled transport and recombination of charge carriers. This model explains behavior of both stationary and non-stationary RIC measured under various conditions. On the other hand, it is well established from first principles that transport and recombination of charge carriers must occur via hopping in most non-crystalline dielectrics. Recently, it was shown that the rate of carrier recombination is much lower than predicted by the well-known Langevin equation. In the present work, a model of suppressed recombination is suggested based on a hopping approach to charge-carrier kinetics in disordered materials

Keywords

dielectric materials; electron-hole recombination; hopping conduction; radiation effects; charge-carrier kinetics; disordered dielectrics; hopping; nonLangevin recombination; noncrystalline materials; radiation-induced conductivity; trap-controlled transport; Charge carriers; Conducting materials; Conductivity; Data engineering; Dielectric materials; Equations; Kinetic theory; Physics; Spontaneous emission; Temperature distribution;

fLanguage

English

Publisher

ieee

Conference_Titel

Electrical Insulating Materials, 1995. International Symposium on

Conference_Location

Tokyo

Print_ISBN

4-88686-047-8

Type

conf

DOI

10.1109/ISEIM.1995.496589

Filename

496589