A novel approach to the analysis of photoemission core level line shape changes, which occur as a function of temperature, doping level, and metal coverage, is presented. It demonstrates that core level photoemission spectroscopy from semiconductor surfaces and metal-semiconductor interfaces may be affected by barrier height inhomogeneities which can alter the shape of the measured Lines. A simple model is used to predict the effect of such local variations on the shape of core level emission. We show that a strong correlation between photoemission data and barrier heights inhomogeneity exists which need to be taken into account in order to correctly interpret photoemission results.
Effects of Barrier Height Inhomogeneity on Core Level Photoemission from Clean and Metal-Covered Semiconductor Surfaces.
M PEDIO
1995
Abstract
A novel approach to the analysis of photoemission core level line shape changes, which occur as a function of temperature, doping level, and metal coverage, is presented. It demonstrates that core level photoemission spectroscopy from semiconductor surfaces and metal-semiconductor interfaces may be affected by barrier height inhomogeneities which can alter the shape of the measured Lines. A simple model is used to predict the effect of such local variations on the shape of core level emission. We show that a strong correlation between photoemission data and barrier heights inhomogeneity exists which need to be taken into account in order to correctly interpret photoemission results.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
