What's Happening?
A recent study has modeled the interaction between pulsed 5G/6G signals and the fine structure of human skin. The research focuses on the specific absorption rate (SAR) distribution across different skin models, including those with sweat ducts and dermal blood vessels. The study reveals that higher frequencies, such as 300 GHz, significantly affect the energy absorption in skin components like sweat ducts and blood vessels. The findings suggest that these skin structures act as filters, influencing electromagnetic energy distribution and absorption. The study also examines the impact of stress levels on SAR, indicating that higher stress levels increase electromagnetic sensitivity in specific skin areas.
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Why It's Important?
The study's findings are crucial for understanding the potential health implications of exposure to 5G/6G signals. As these technologies become more prevalent, assessing their impact on human health is essential for developing safety standards and guidelines. The research highlights the need for further investigation into how electromagnetic fields interact with biological tissues, particularly in high-frequency ranges. This knowledge could inform public policy and regulatory decisions regarding the deployment of advanced wireless technologies.
Beyond the Headlines
The study raises ethical and health concerns about the widespread adoption of 5G/6G technologies. It underscores the importance of considering long-term health effects and the need for comprehensive research to ensure public safety. The findings may prompt discussions about the balance between technological advancement and health risks, influencing future research priorities and regulatory frameworks.
