Abstrakt
Semi-insulating CdZnTe crystals were studied by photoconductivity mapping using both the contactless method and measurement with evaporated Au contacts. We evaluated the distribution of space charge analyzing the slope of lux-ampere characteristics.
Mobility/lifetime product maps were extracted fitting the Hecht relation to voltampere characteristics measured with a weak light at wavelength 750 nm. Correlation analysis of contactless resistivity and photoconductivity maps shows, that both these parameters are anticorrelated.
This fact can be explained by a shift of Fermi level changing the average occupation of a midgap level. A decrease of occupation with an increasing resistivity results in an increase of electron trapping and decreased photoconductivity.
This explanation is supported by simulating the dependence of the photocurrent on the Fermi level position near the midgap using parameters of midgap levels assumed in state-of-the art radiation detectors.