光电流
肖特基二极管
光电子学
材料科学
光电导性
辐照
光学
猝灭(荧光)
光子
肖特基势垒
二极管
宽禁带半导体
光电探测器
探测器
发光二极管
X射线探测器
基质(水族馆)
物理
荧光
核物理学
地质学
海洋学
作者
Jean‐Yves Duboz,B. Beaumont,Jean‐Luc Reverchon,Andreas D. Wieck
摘要
GaN based materials are believed to be very stable materials, in particular, under irradiation by high energy photons such as x rays. We have studied x-ray detectors based on GaN Schottky diodes. Vertical Schottky diodes were fabricated based on a 20μm thick undoped GaN layer grown on a conductive GaN substrate. Their photoresponse to near UV light and to x rays was measured. While the response to near UV light was fast and linear as expected, anomalous behaviors were observed under x-ray illumination. The photocurrent increases as the third power of the incident x-ray flux. The photocurrent transient when the x rays is turned on are long and nonexponential (S shape) and strongly differs from the off transient which is fast and exponential. Also, a very strong quenching of the x-ray photoresponse is observed when the detector is simultaneously illuminated with visible light. All of these anomalous behaviors are explained in the frame of a complete model involving traps and tunnel currents. A reasonable quantitative agreement between the model and the experimental data is obtained.
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