Nanosecond X-ray detector based on high resistivity ZnO single crystal semiconductor

Xiaolong Zhao; Liang Chen; Yongning He; Jinliang Liu; Wenbo Peng; Zhiyong Huang; Xiaomeng Qi; Zijian Pan; Wenting Zhang; Zhongbing Zhang; Xiaoping Ouyang

doi:10.1063/1.4947085

Nanosecond X-ray detector based on high resistivity ZnO single crystal semiconductor

Xiaolong Zhao
, Liang Chen
, Yongning He
, Jinliang Liu
, Wenbo Peng
, Zhiyong Huang
, Xiaomeng Qi
, Zijian Pan
, Wenting Zhang
, Zhongbing Zhang
, Xiaoping Ouyang

电子与信息学部

Xi'an Jiaotong University
Northwest Institute of Nuclear Technology

科研成果: 期刊稿件 › 文章 › 同行评审

44 引用（Scopus）

摘要

The pulse radiation detectors are sorely needed in the fields of nuclear reaction monitoring, material analysis, astronomy study, spacecraft navigation, and space communication. In this work, we demonstrate a nanosecond X-ray detector based on ZnO single crystal semiconductor, which emerges as a promising compound-semiconductor radiation detection material for its high radiation tolerance and advanced large-size bulk crystal growth technique. The resistivity of the ZnO single crystal is as high as 10¹³ Ω cm due to the compensation of the donor defects (V_O) and acceptor defects (V_Zn and O_i) after high temperature annealing in oxygen. The photoconductive X-ray detector was fabricated using the high resistivity ZnO single crystal. The rise time and fall time of the detector to a 10 ps pulse electron beam are 0.8 ns and 3.3 ns, respectively, indicating great potential for ultrafast X-ray detection applications.

源语言	英语
文章编号	171103
期刊	Applied Physics Letters
卷	108
期	17
DOI	https://doi.org/10.1063/1.4947085
出版状态	已出版 - 25 4月 2016

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title = "Nanosecond X-ray detector based on high resistivity ZnO single crystal semiconductor",

abstract = "The pulse radiation detectors are sorely needed in the fields of nuclear reaction monitoring, material analysis, astronomy study, spacecraft navigation, and space communication. In this work, we demonstrate a nanosecond X-ray detector based on ZnO single crystal semiconductor, which emerges as a promising compound-semiconductor radiation detection material for its high radiation tolerance and advanced large-size bulk crystal growth technique. The resistivity of the ZnO single crystal is as high as 1013 Ω cm due to the compensation of the donor defects (VO) and acceptor defects (VZn and Oi) after high temperature annealing in oxygen. The photoconductive X-ray detector was fabricated using the high resistivity ZnO single crystal. The rise time and fall time of the detector to a 10 ps pulse electron beam are 0.8 ns and 3.3 ns, respectively, indicating great potential for ultrafast X-ray detection applications.",

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T1 - Nanosecond X-ray detector based on high resistivity ZnO single crystal semiconductor

AU - Zhao, Xiaolong

AU - Chen, Liang

AU - He, Yongning

AU - Liu, Jinliang

AU - Peng, Wenbo

AU - Huang, Zhiyong

AU - Qi, Xiaomeng

AU - Pan, Zijian

AU - Zhang, Wenting

AU - Zhang, Zhongbing

AU - Ouyang, Xiaoping

PY - 2016/4/25

Y1 - 2016/4/25

N2 - The pulse radiation detectors are sorely needed in the fields of nuclear reaction monitoring, material analysis, astronomy study, spacecraft navigation, and space communication. In this work, we demonstrate a nanosecond X-ray detector based on ZnO single crystal semiconductor, which emerges as a promising compound-semiconductor radiation detection material for its high radiation tolerance and advanced large-size bulk crystal growth technique. The resistivity of the ZnO single crystal is as high as 1013 Ω cm due to the compensation of the donor defects (VO) and acceptor defects (VZn and Oi) after high temperature annealing in oxygen. The photoconductive X-ray detector was fabricated using the high resistivity ZnO single crystal. The rise time and fall time of the detector to a 10 ps pulse electron beam are 0.8 ns and 3.3 ns, respectively, indicating great potential for ultrafast X-ray detection applications.

AB - The pulse radiation detectors are sorely needed in the fields of nuclear reaction monitoring, material analysis, astronomy study, spacecraft navigation, and space communication. In this work, we demonstrate a nanosecond X-ray detector based on ZnO single crystal semiconductor, which emerges as a promising compound-semiconductor radiation detection material for its high radiation tolerance and advanced large-size bulk crystal growth technique. The resistivity of the ZnO single crystal is as high as 1013 Ω cm due to the compensation of the donor defects (VO) and acceptor defects (VZn and Oi) after high temperature annealing in oxygen. The photoconductive X-ray detector was fabricated using the high resistivity ZnO single crystal. The rise time and fall time of the detector to a 10 ps pulse electron beam are 0.8 ns and 3.3 ns, respectively, indicating great potential for ultrafast X-ray detection applications.

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DO - 10.1063/1.4947085

M3 - 文章

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JO - Applied Physics Letters

JF - Applied Physics Letters

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ER -

Nanosecond X-ray detector based on high resistivity ZnO single crystal semiconductor

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