Effect of point defects trapping characteristics on mobility-lifetime (μτ) product in CdZnTe crystals

Abstract

The trapping characteristics of point defects in CdZnTe crystals grown by the vertical Bridgman method (VB) and the traveling heater method (THM) were analyzed. The photo-induced current transient spectroscopy (PICTS) was used to determine the traps’ energy, their capture cross-section and concentration. Moreover, the trapping and de-trapping times of point defects were obtained. Furthermore, the photoconductive technology under sub-bandgap illumination were employed to study the influence of the trapping characteristics on mobility-lifetime (μτ) product of CdZnTe crystal. The quantitative results indicated that sub-bandgap illumination can effectively improve carrier mobility-lifetime. The deep levels (TeCd), which occupy the position around the midgap, with high de-trapping time and low trapping time have greater effect on μτ product for the crystals than Cd vacancies. The Te secondary-phase related defects, which can be observed in the VB method grown crystals, have less influence on μτ product than Te antisite.