\begin{document}$ \rm Te_{Cd}^{++} $\end{document}in CdZnTe crystals with activation energy of Ev + 0.86 eV and concentration of 1 × 1012 cm–3 at room temperature. The simulation results demonstrate that the Au/ CdZnTe /Au energy band tilts intensively with the increase of applied bias, which makes the deep level ionization fraction increase. The space charge concentration also increases in the crystal. Meanwhile, the dead layer of electric field distribution decreases, which is of benefit to the carrier collection of CdZnTe detector. In addition, under the premiseof the high resistivity of CdZnTe crystal, the reduction of deep level defect concentration located at Ev + 0.86 eV can narrow the internal dead layer moderately. The deep level defect located at Ev + 0.8 eV can also reduce the space charge concentration near the cathode, which flattens the electric field distribution with narrower dead layer, thus significantly improving the carrier collection efficiency of CdZnTe detector. These simulation results will provide meaningful theoretical guidance for further optimizing the CdZnTe crystal growth, device design and fabrication."> - 必威体育下载

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    Guo Rong- Rong, Lin Jin-Hai, Liu Li-Li, Li Shi-Wei, Wang Chen, Lin Hai-Jun
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    • Abstract views:6713
    • PDF Downloads:203
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    Publishing process
    • Received Date:15 April 2020
    • Accepted Date:14 July 2020
    • Available Online:09 November 2020
    • Published Online:20 November 2020

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