Report Overview
This R&D simulation report calculates the strength and intensity of the electromagnetic field produced in the interaction of 2.4 GHz WiFi radiation with the Aires C16S resonator microprocessor — the silicon fractal diffraction grating component used in the Aires Shield Pro (2018 model). The C16S topology is the most complex in the 2018 WiFi-range product line, featuring 16 fractalization axes, 4 levels of fractalization, and 83,521 slit resonators — compared to 28 or 32 axes in the C28S and C32S variants.
Custom physical and mathematical models were required, as existing commercial EM simulation packages do not account for counter-wave interaction and derivative resonance phenomena central to the Aires resonator mechanism.
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 |
C16S Resonator Specifications
| Parameter | Value |
|---|---|
| Fractalization axes | 16 |
| Fractalization levels | 4 (plus prototype) |
| Total slit resonators | 83,521 |
| Slit width / height | 0.4 μm / 0.8 μm |
| Overall diameter | 6.5 mm |
| Basic module diameter | 1.625 mm |
| Target frequency | 2.4 GHz (WiFi) |
| Product | Aires Shield Pro (2018 model) |
Key Results
Quantified Field Parameters — Aires C16S at 2.4 GHz
12.73 V/m
Peak field strength (Eₘₐˣ)
~9.6×
Increase over baseline
162.2 V/m²
Peak field intensity (Iₘₐˣ)
~92×
Intensity increase
Finding 1 — Coherent Holographic Conversion ConfirmedSimulations confirm that the Aires C16S resonator converts incident 2.4 GHz electromagnetic radiation into a coherent spatio-temporal self-affine form. The energy is redistributed across space, frequencies, phases, and interaction diagram — not attenuated or blocked, but coherently transformed into a self-affine stationary holographic structure matching the resonator’s own topological lattice.
Finding 2 — Singularity at Resonator CenterCounter-harmonization along ring diameters creates a maximally neutral zone at the resonator center, where potential density increases sharply and amplitude tends to zero. The focal point intensity reaches (Iₘₐˣ)² = (162.2)² = 26,309 V/m². Continuous inflow of potential from outside ensures the superposition remains highly stable.
Finding 3 — Comparative Context: C16S vs C28S vs C32SAll three 2018 WiFi-range reports share the same research team and methodology at 2.4 GHz, but characterize different resonator topologies used in different products. The C16S (Shield Pro) features the highest slit resonator count (83,521) due to 4 levels of fractalization, versus the C28S (Defender Pro, 2 levels) and C32S (Guardian, 2 levels). The same fundamental coherent transformation mechanism operates across all three variants, confirming design robustness.