用于评估严重射频暴露对3D生物模型影响的微型射频应用器的实验剂量学研究

S. Augé, A. Tamra, Lise Rigal, V. Lobjois, B. Ducommun, D. Dubuc, K. Grenier
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引用次数: 2

摘要

射频辐射对生活的影响是一个有争议的话题,而无线应用继续急剧增长,我们的日常环境被电磁场包围。为了评估射频辐射的潜在影响,即使是严重的射频暴露,也必须使用控制良好的剂量学和校准的射频暴露系统进行实验。本文介绍了一种能够对微组织施加可控电磁场辐射的微型射频施加器。本文提出了一种基于热测量的实验方法,根据施加功率和稳态热增量来确定施加于微组织的比吸收率。由于涂抹器的微型配置,可以在中等热条件下实现大范围的SAR。
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Experimental Dosimetry Study of a Miniature RF Applicator Dedicated to the Evaluation of Severe RF Exposure Impact on a 3D Biological Model
The impact of RF radiation on the living constitutes a controversial topic, whereas wireless applications continue to grow drastically and our daily environment is surrounded of electromagnetic fields. In order to evaluate the potential impact of RF radiations even with severe RF exposures, it is important to conduct experiments with a very well controlled dosimetry and with calibrated RF exposure systems. In this paper, a miniature RF applicator, which enables to apply controlled electromagnetic fields radiation on micro-tissues, is introduced. An experimental method based on thermal measurements has been developed in such a micro-device to define the Specific Absorption Rate applied to micro-tissues depending on the applied power and the thermal increment in steady state. Due to miniature configuration of the applicator, a large range of SAR may be achieved in moderate thermal conditions.
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