Electromagnetic Pollution is directly linked to the emergence of Artificial Quantum Noise (AQN), a type of artificial electromagnetic disturbance generated by the widespread use of Information and Communication Technologies (ICTs), especially in telecommunications systems employing techniques like Orthogonal Frequency Division Multiplexing (OFDM). AQN refers to quantum-level noise induced by advanced technologies, which does not operate through thermal effects but rather creates fundamental interference in the structure and behavior of both electronic and biological systems.
This electromagnetic noise degrades technological systems, compromising electronic functionality, inducing failures, and reducing operational efficiency by causing material fatigue. In biological organisms, Artificial Quantum Noise triggers oxidative stress responses, disrupts cellular communication, and compromises cellular polarity, potentially leading to long-term dysfunctions. This form of pollution represents an emerging challenge, as it operates on quantum scales, affecting both technological infrastructures and biological systems in ways that go beyond traditional thermal effects.
The electromagnetic problem lies in the fundamental disturbance that is created by the artificial polarization⁴ of electromagnetic waves when they are modulated for the transmission of messages in telecommunications.
In conclusion, while shielding may seem like a simple and effective solution to controlling electrosmog, it can actually increase interference and disrupt the natural flow of EM waves in the body. It is not a recommended approach for addressing this issue