High efficient low cost gamma-ray radiation sensor based on IoT platform

Sharaf A.; Zorkany M.; Shiple M.

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High efficient low cost gamma-ray radiation sensor based on IoT platform

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In the radiation sensing community, it's very important to detect gamma-ray radiation using remote sensing like IoT platforms. In this paper, high efficient low cost gamma-ray radiation sensor is designed to monitor and early detect radioactive materials that are present in the environment, and this is to be achieved based on IoT platform. Such platform provides a safer monitoring technique that helps avoiding the direct exposure to radiation and allows the exploration of inaccessible places. This paper conducts a deep informed study of N-channel (NMOS) and P-channel (PMOS) MOSFETs to be used as a dosimeter and sensor for gamma-ray radiation. The proposed technique herein uses the active load configuration of MOSFETs to detect the output current or the channel on resistance. MOSFET drain current and channel resistance values are changed based on variations of threshold voltage (V-T) that are affected directly by the dose of absorbed gamma-ray radiation. For the purpose of sensing the ionizing radiation, the change ratios of output current or channel resistance values; due to threshold voltage shifting, are measured. A complete prototype of the proposed gamma-ray radiation IoT monitoring solution has been built and tested in a real gamma radiation environment over a dose range from 10 Gy up to 40 Gy. The highest current sensitivity of the proposed dosimeter was 0.579 mA/Gy and 0.529 mA/Gy for NMOS and PMOS respectively. The practical results show that the IoT monitoring radiation system is able to efficiently detect the gamma radiation remotely using low cost MOSFET transistors.

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《journal of radiation research and applied sciences》 |2022年第4期|共10页
作者
Sharaf A.; Zorkany M.; Shiple M.;
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作者单位

Egyptian Atom Energy Author;

Natl Telecommun Inst;

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原文格式 PDF
正文语种英语
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Internet of things (IoT); Gamma-ray sensor; Environment radiation monitoring; Active load resistance; IN-VIVO DOSIMETRY; IRRADIATION; DETECTORS; MOSFET; RANGE;

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High efficient low cost gamma-ray radiation sensor based on IoT platform

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