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EVALUATION OF SPECIFIC ABSORPTION RATE IN THE FAR-FIELD, NEAR-TO-FAR FIELD AND NEAR-FIELD REGIONS FOR INTEGRATIVE RADIOFREQUENCY EXPOSURE ASSESSMENT

Ilaria Liorni, Myles Capstick, Luuk van Wel, Joe Wiart, Wout Joseph, Elisabeth Cardis, Mònica Guxens, Roel Vermeulen, Arno Thielens

2020Radiation Protection Dosimetry46 citationsDOI

Abstract

The specific absorption rate (SAR) induced by wireless radiofrequency (RF) systems depends on different parameters. Previously, SAR was mainly assessed under conditions of a single frequency and technology and for a limited number of localized RF sources. The current and emerging mobile systems involve a wider range of usage scenarios and are frequently used simultaneously, leading to combined exposures for which almost no exposure evaluation exists. The aim and novelty of this study is to close this gap of knowledge by developing new methods to rapidly evaluate the SAR induced by RF systems in such scenarios at frequencies from 50 MHz to 5.5 GHz. To this aim, analytical methods for SAR estimation in several usage scenarios were derived through a large-scale numerical study. These include subject-specific characteristics, properties of the RF systems and provide an estimation of the SAR in the whole body, tissues and organs, and different brain regions.

Topics & Concepts

Specific absorption rateNear and far fieldComputer scienceNoveltyWirelessField (mathematics)Absorption (acoustics)Radio frequencyEnvironmental scienceRemote sensingTelecommunicationsPhysicsAcousticsOpticsGeologyMathematicsPhilosophyAntenna (radio)TheologyPure mathematicsElectromagnetic Fields and Biological EffectsElectromagnetic Compatibility and MeasurementsWireless Body Area Networks