Development of a Radiometer for Ground-based Ultra Violet (UV)/ Cosmic Particle Characterization

IF 0.5 Q4 PHYSICS, MULTIDISCIPLINARY

Jordan Journal of Physics Pub Date : 2022-10-31 DOI:10.47011/15.4.11

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Abstract

Abstract: The need for high-precision radiometers for the measurement of solar ultraviolet (UV) radiation triggered this research interest. This is due to the quest for the determination of the trends of terrestrial UV trends associated with the depletion of the ozone layer. This work features the development of a radiometer for the characterization of UV and ionizing radiations from the sun reaching the earth surface at a specific location. The radiations were quantified with the aid of a UV radiation sensor, Geiger tubes, a microcontroller and associated devices. Time series and location coordinates were stamped on the data records with the aid of NEO6M Global Positioning System (GPS) modules. The ionizing radiations were characterized in counts per minute (cpm), while the UV index indications were realized from the voltage output (mV) of the UV sensor using a model based on the UV index chart. The results obtained indicate that the UV index ranges from a minimum value of 0 to a maximum value of 3, while the radiation count ranges from a minimum value of 0 to a maximum value of 48 cpm for 3 days. Hence, the status of the ozone layer can be ascertained from a review of a much longer period of data gathering. Keywords: CPM, CSV, FFF, Geiger, GPS, Ionizing, UV.

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地基紫外线/宇宙粒子表征辐射计的研制

摘要：对用于测量太阳紫外线辐射的高精度辐射计的需求引发了这一研究兴趣。这是由于寻求确定与臭氧层消耗有关的地面紫外线趋势。这项工作的特点是开发了一种辐射计，用于表征太阳在特定位置到达地球表面的紫外线和电离辐射。借助紫外线辐射传感器、盖革管、微控制器和相关设备对辐射进行量化。在近地天体6米全球定位系统模块的帮助下，在数据记录上标注了时间序列和位置坐标。电离辐射以每分钟计数（cpm）为特征，而紫外线指数指示是使用基于紫外线指数图的模型从紫外线传感器的电压输出（mV）实现的。所获得的结果表明，紫外线指数的范围从最小值0到最大值3，而辐射计数的范围从最低值0到最高值48cpm，持续3天。因此，可以通过审查更长时间的数据收集来确定臭氧层的状况。关键词：CPM，CSV，FFF，盖革，GPS，电离，紫外线。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Jordan Journal of Physics PHYSICS, MULTIDISCIPLINARY-

CiteScore

0.90

自引率

14.30%

发文量