Chemical polarization effects of electromagnetic field radiation from the novel 5G network deployment at ultra high frequency
Abstract
Abstract Summary
Overview
The research concentrates on the non-ionizing, non-visible radiation from the deployment of the novel 5G network. It particularly addresses the implications of electromagnetic fields (EMFs) at ultra-high frequencies on human health.
Findings
- Exposure to ultra-high frequency magnetic fields from 5G networks potentially induces currents in the human body, leading to heating and changes in cellular structure.
- The quantum of electromagnetic charges that affect the human body is determined by the external magnetic field's magnitude.
- Significant findings suggest that frequencies above 20 GHz can heat body tissues and affect body dipolar chemistry, leading to various types of polarization such as dielectric, ionic, interfacial, and orientational.
Conclusion
It is critical to control the deployment frequency of 5G technology to prevent adverse health impacts, particularly focusing on frequencies above 20 GHz to avoid harmful dielectric dispersion in biological tissues.