Positron lifetime spectroscopy of defect structures in Cd1 – xZnxTe mixed crystals grown by vertical Bridgman – Stockbarger method

Positron annihilation lifetime spectroscopy was used to examine grown-in defects in Cd1 – xZnxTe mixed crystals as a function of Zn content (x = 0, 0.07, 0.11, 0.49, 0.9, 0.95, 1) and measuring temperature. All samples were prepared using the high-pressure modified vertical Bridgman – Stockbarger method. The crystal structure and material phase were characterized by X-ray diffraction. The positron lifetime spectra reveal the presence of both open volumes and shallow traps regardless of the sample composition. In particular, both average and bulk lifetimes are found to be much higher in ternary alloys (CdZnTe) than those in binary systems (CdTe and ZnTe). This originates from distinct differences in average electron densities and the nature of open-volume defects between binary and ternary samples. Competition in positron trapping with increasing Zn content is observed between defects characteristic for both structural systems. Moreover, a clear correlation is shown between defects and the lattice thermal conductivity of studied samples. The applicability of the positron trapping model to CdTe-based materials is discussed.
Source: Acta Crystallographica Section B - Category: Chemistry Authors: Tags: cadmium zinc telluride positron lifetime spectroscopy X-ray diffraction shallow positron traps defects research papers Source Type: research
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