Archive
3 postsRadio Frequency Exposure in Military Contexts: A Narrative Review of Thermal Effects and Safety Considerations
This narrative review focuses on RF exposure in military contexts, emphasizing thermal effects as the established mechanism of harm and discussing safety limits set by bodies such as ICNIRP and IEEE. It reports that whole-body SAR limits (≤4 W/kg) generally prevent dangerous core temperature rises, but localized heating risks may persist for tissues like skin and eyes, especially when thermoregulation is impaired. The review highlights CEM43 as a potentially useful thermal-dose metric but notes complexity for transient exposures and calls for improved models and methods across relevant frequency bands.
Carcinogenicity of Radio-Frequency Radiation: Similarities and Differences Between Outcomes of Two Studies
This review compares two epidemiologic studies of radio-frequency radiation (RFR) exposure among military personnel with overlapping patient groups. One study reported a statistically significant increase in cancer among exposed individuals, while the other did not, which the review attributes to a smaller sample size. The review highlights similar cancer patterns across both studies, including a high proportion of hematolymphoid cancers and earlier onset among exposed individuals, and interprets these similarities as evidence of carcinogenic effects.
Assessing exposure from different vehicular antennas in military applications: a computational study
This computational study modeled electromagnetic exposure for military personnel near vehicular communication antennas across HF, VHF, and UHF scenarios. All simulated configurations reportedly met ICNIRP Basic Restrictions, though some exceeded ICNIRP Reference Levels in certain positioning and frequency combinations. The authors conclude that safety is generally maintained across the modeled conditions and that results can inform operational guidance and safety regulations.