EMF Field Strength and Intensity Calculation: Aires C32S Resonator at 2.4 GHz (WiFi) — Serov, Korshunov et al. (2018)

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EMF Field Strength and Intensity Calculation: Aires C32S Resonator at 2.4 GHz (WiFi) — Serov, Korshunov et al. (2018)

By I. Serov, K. Korshunov, I. Soltovskaya, T. Shamko

Year: 2018Type: R&D Lab ReportDevice: Aires C32S / Aires GuardianFrequency: 2.4 GHz (WiFi)Cluster: Physics & Engineering

Report Overview

This R&D report presents calculations of the strength and intensity of the electromagnetic field produced in the interaction of 2.4 GHz WiFi radiation with the Aires C32S resonator microprocessor — the silicon fractal diffraction grating component used in the Aires Guardian (2018 model). The report applies computational electromagnetic field analysis to characterize how the C32S resonator modifies the incident WiFi field in its interaction zone.

WiFi at 2.4 GHz is one of the most pervasive sources of ambient electromagnetic field exposure in contemporary environments — present in virtually every home, office, and public space. Characterizing the C32S resonator’s interaction with this frequency is directly relevant to the device’s primary use case and provides the frequency-specific physics basis for the Guardian model’s performance claims.

Research Team

Role Researcher
Project Manager I. Serov
Responsible Researcher K. Korshunov
Researcher I. Soltovskaya
Researcher T. Shamko
Consultant Prof. Dr. of Technical Sciences A. Kopyltsov
Consultant Prof. Department of Physics Dr. A. Jukna

Device: Aires C32S Resonator

The C32S is the resonator microprocessor configuration used in the Aires Guardian. Like all Aires resonator models, it is based on a silicon crystal substrate with a self-affine fractal diffraction grating pattern etched on its surface (Patent No. 2312384). The “C32S” designation refers to the specific geometric configuration of the fractal pattern, optimized for interaction across the WiFi and broader consumer device frequency spectrum.

The Aires Guardian is designed for stationary use — protecting a room or workspace — as distinct from the personal carry/attach devices in the Lifetune product line. The C32S resonator’s interaction parameters at 2.4 GHz are specifically relevant to characterizing the Guardian’s performance in WiFi-dense environments.

This report was produced by the Aires Human Genome Research Foundation research team with external academic consultants. Professors Kopyltsov and Jukna are affiliated with Saint-Petersburg Electrotechnical University and Vilnius Gediminas Technical University respectively — the same institutions that appear as co-authors on the ITLMS 2018 peer-reviewed conference paper examining the same fractal resonator mechanism.

Key Findings

Finding 1 — Quantified Field Modification at 2.4 GHzThe C32S resonator produces quantified modification of the electromagnetic field strength and intensity in its interaction zone at 2.4 GHz WiFi frequency. The calculations establish the specific field parameters produced by the resonator geometry at this frequency, providing the physics basis for the Guardian model’s WiFi interaction claims.
Finding 2 — Coherent Transformation at WiFi FrequenciesThe field modification calculated for the C32S at 2.4 GHz is consistent with the coherent transformation mechanism — the resonator produces a structured field modification rather than simple attenuation. This is consistent with findings from the C20S5G calculations (Serov & Korshunov, 2018) at 5G frequencies, indicating the fractal mechanism operates across the consumer device frequency range.
Finding 3 — Frequency-Specific Design ValidationThe C32S calculations provide design validation specific to the 2.4 GHz WiFi environment, confirming that the Guardian model’s resonator geometry produces meaningful field interaction at the frequency most users will encounter. This closes the loop between general fractal mechanism studies and product-specific performance characterization.

Context Within the Lab Report Series

This C32S report is one of a series of equivalent R&D reports characterizing different Aires resonator configurations at their relevant operating frequencies. The C16S and C28S reports address other microprocessor configurations used in different Aires products, using the same methodology applied to their respective frequency ranges and geometric parameters. Together these reports provide product-by-product electromagnetic characterization of the full Aires resonator family.

Related Research

Researcher Profile: I. Serov Physics & Engineering Cluster ← All Research