Time response of Cd0.9Zn0.1Te crystals under transient and pulsed irradiation

X. C. Zhao; X. P. Ouyang; Y. D. Xu; H. T. Han; Z. C. Zhang; T. Wang; G. Q. Zha; X. Ouyang

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Time response of Cd0.9Zn0.1Te crystals under transient and pulsed irradiation

机译：Cd0.9Zn0.1Te晶体在瞬态和脉冲辐照下的时间响应

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A CdZnTe detector based on high-quality Cd0.9Zn0.1Te crystals was developed and tested as a monitor in high-intensity radiation fields. The current–voltage measurements were performed using thermally evaporated Au contacts deposited on the crystals, which revealed resistivity of 1010 Ω·cm. Typical leakage current for the planar devices was ～3 nA for a field strength of 1000 V·cm–1. The test results show that the CdZnTe detector has a fast time response, with a rise time of approximately 2 ns, when exposed to transient and pulsed irradiation of X-rays or electron beams. The decay of current curves is observed and discussed according to charge carrier trapping effects and space-charge accumulation mechanisms. It is suggested that the current decreases quickly with strengthening of the electric field, possibly because of charge de-trapping.

机译：开发了一种基于高质量Cd0.9Zn0.1Te晶体的CdZnTe检测器，并在高强度辐射场中作为监测器进行了测试。使用沉积在晶体上的热蒸发Au触点进行电流-电压测量，其电阻率为1010Ω·cm。对于1000 V·cm-1的场强，平面器件的典型泄漏电流为〜3 nA。测试结果表明，当CdZnTe检测器受到X射线或电子束的瞬时和脉冲照射时，其上升时间约为2 ns，具有快速的时间响应。根据电荷载流子的俘获效应和空间电荷积累机制，观察并讨论了电流曲线的衰减。建议电流可能随着电场增强而迅速降低，这可能是由于电荷的去俘获。

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《AIP Advances》 |2012年第1期|共页
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X. C. Zhao; X. P. Ouyang; Y. D. Xu; H. T. Han; Z. C. Zhang; T. Wang; G. Q. Zha; X. Ouyang;
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7. Time response of Cd0.9Zn0.1Te crystals under transient and pulsed irradiation [O] . X. C. Zhao, X. P. Ouyang, Y. D. Xu, 2012

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Time response of Cd0.9Zn0.1Te crystals under transient and pulsed irradiation

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