Abstract: In the recent years, the depletion of the stratospheric ozone layer has alerted the scientific community about the risks of a solar ultraviolet (UV) radiation overexposure. Biological research has confirmed the very important role of the UV-B (320 - 280 nm) and UV-A (400 - 320 nm) bands on the Earth biosystem. Al$-x$/Ga$-1-x$/N semiconductor alloys, with a bandgap tunable between 3.4 eV and 6.2 eV, are the most suitable materials for the fabrication of solar UV detectors. In this paper we describe the fabrication and characteristics of AlGaN photoconductive and Schottky barrier photodetectors, with Al mole fractions up to 35%. Photoconductive detectors show very high gains, that decrease with increasing incident optical power. They present persistent photoconductivity effects, and a significant below-the-gap response. The physics of this behavior is discussed. On the other hand, AlGaN Schottky barrier photodetectors show a very fast response that is independent of the optical power, and their UV/visible rejection ratio is rather high. As the Al content increases, the evolution of the responsivity and cut-off wavelength is presented. Al$-0.22$/Ga$-0.78$/N Schottky barriers are very good candidates to monitor the UV-B band. The prospective applications of AlGaN photodiodes to determine the biological action of the solar UV radiation are also discussed. !36
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机译:摘要:近年来,平流层臭氧层的消耗已使科学界警觉了太阳紫外线(UV)辐射过度暴露的风险。生物学研究已经证实,UV-B(320-280 nm)和UV-A(400-320 nm)波段在地球生物系统中具有非常重要的作用。 Al $ -x $ / Ga $ -1-x $ / N半导体合金的带隙可调节在3.4 eV至6.2 eV之间,是制造太阳能紫外线探测器的最合适材料。在本文中,我们描述了Al摩尔分数高达35%的AlGaN光电导和肖特基势垒光电探测器的制造和特性。光电导检测器显示出很高的增益,随着入射光功率的增加而降低。它们表现出持久的光电导效应,以及显着的低于间隙的响应。讨论了这种行为的物理原理。另一方面,AlGaN肖特基势垒光电探测器显示出非常快的响应,而与光功率无关,并且它们的UV /可见光抑制比也很高。随着Al含量的增加,呈现出响应度和截止波长的变化。 Al $ -0.22 $ / Ga $ -0.78 $ / N肖特基势垒非常适合监测UV-B波段。还讨论了AlGaN光电二极管在确定太阳紫外线辐射的生物作用方面的预期应用。 !36
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