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

doi:10.1063/1.3693970

Time response of Cd_0.9Zn_0.1Te 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

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

A CdZnTe detector based on high-quality Cd_0.9Zn_0.1Te 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.

Original language	English
Article number	012162
Journal	AIP Advances
Volume	2
Issue number	1
DOIs	https://doi.org/10.1063/1.3693970
State	Published - Mar 2012

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title = "Time response of Cd0.9Zn0.1Te crystals under transient and pulsed irradiation",

abstract = "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.",

author = "Zhao, {X. C.} and Ouyang, {X. P.} and Xu, {Y. D.} and Han, {H. T.} and Zhang, {Z. C.} and T. Wang and Zha, {G. Q.} and X. Ouyang",

year = "2012",

month = mar,

doi = "10.1063/1.3693970",

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T1 - Time response of Cd0.9Zn0.1Te crystals under transient and pulsed irradiation

AU - Zhao, X. C.

AU - Ouyang, X. P.

AU - Xu, Y. D.

AU - Han, H. T.

AU - Zhang, Z. C.

AU - Wang, T.

AU - Zha, G. Q.

AU - Ouyang, X.

PY - 2012/3

Y1 - 2012/3

N2 - 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.

AB - 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.

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Time response of Cd_0.9Zn_0.1Te crystals under transient and pulsed irradiation

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