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Human exposure to radiofrequency energy above 6 GHz: review of computational dosimetry studies

Akimasa Hirata, Sachiko Kodera, Kensuke Sasaki, Jose Gomez-Tames, Ilkka Laakso, Andrew Wood, Soichi Watanabe, Kenneth R Foster

2021Physics in Medicine and Biology74 citationsDOIOpen Access PDF

Abstract

International guidelines/standards for human protection from electromagnetic fields have been revised recently, especially for frequencies above 6 GHz where new wireless communication systems have been deployed. Above this frequency a new physical quantity 'absorbed/epithelial power density' has been adopted as a dose metric. Then, the permissible level of external field strength/power density is derived for practical assessment. In addition, a new physical quantity, fluence or absorbed energy density, is introduced for protection from brief pulses (especially for shorter than 10 s). These limits were explicitly designed to avoid excessive increases in tissue temperature, based on electromagnetic and thermal modeling studies but supported by experimental data where available. This paper reviews the studies on the computational modeling/dosimetry which are related to the revision of the guidelines/standards. The comparisons with experimental data as well as an analytic solution are also been presented. Future research needs and additional comments on the revision will also be mentioned.

Topics & Concepts

DosimetryComputer scienceElectromagnetic fieldExperimental dataEnergy (signal processing)Field (mathematics)Medical physicsElectromagnetic radiationNuclear engineeringPower (physics)WirelessFluenceRadiation protectionPower densityPhysicsRadiometryHuman studiesElectromagnetic pulseElectromagnetic Fields and Biological EffectsWireless Body Area NetworksUltrasound and Hyperthermia Applications
Human exposure to radiofrequency energy above 6 GHz: review of computational dosimetry studies | Litcius