Abstract
It is well known that the presence of space charge in an insulator is correlated with an electric breakdown. Many studies have been carried out on the experimental characterization of space charges. In this paper, we outline the dependence on the current density of the charge-trapping phenomenon in magnesium oxide. Our study was performed with a dedicated scanning electron microscope (SEM) on the electrical property evolution of surface of magnesium oxide (100) (MgO) single crystal, during a 1.1, 5 and 30keV electron irradiation. The types of charges trapped on the irradiated areas and the charging kinetics are determined by measuring the total secondary electron emission (SEE) σ during the injection process by means of two complementary detectors. At low energies 1.1 and 5keV, two different kinds of self-regulated regime (σ=1) were observed as a function of current density. At 30keV energy, the electron emission appears to be stimulated by the current density, due to the Poole–Frenkel effect.
Published Version
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