Electromagnetic pollution alert: Microwave radiation and absorption in human organs and tissues

Abstract

Overview

The research examines the impact of electromagnetic radiation from communication and electronic devices, with a focus on how these radiations affect human organs and tissues.

Methodology

A detailed analysis based on electromagnetic, mechanical parameters, and chemical compositions of 14 different organs and tissues is provided. Electromagnetic properties, such as permittivity and conductivity calculated using a 4-Cole-Cole model, are related to their influence on wave behavior at frequencies between 1 GHz and 105 GHz.

Findings

• The study specifies increased absorbance in organs and tissues with rising frequency, emphasizing significant dangers especially at higher frequencies used in modern technologies such as Wi-Fi, Bluetooth, and 5G networks.
• Simulation results for Skin-Bone-Brain layers showed that electromagnetic fields do not penetrate past the brain layer, indicating a shield effect at all tested frequencies (2.4 GHz, 28 GHz, and 100 GHz).
• The absorption levels were notably high, indicating a potential risk factor for human health associated with electromagnetic exposure.

Conclusion

The results validate concerns over the increased use of high-frequency technologies and their ability to alter the electromagnetic properties of human tissues, potentially leading to health risks. The research supports the necessity for continuing investigations into the effects of EM radiations on human health.