R&D: Aires C20S5G Resonator at 6 GHz & 28 GHz 5G Frequencies
Aires Crystal (2019 Model) • Project Manager: I. Serov • Consultants: Prof. A. Kopyltsov, Prof. A. Jukna • 2018
Overview
These two 2018 R&D reports calculate the electromagnetic field strength and intensity produced during interaction of 5G frequencies — 6 GHz and 28 GHz — with the Aires C20S5G resonator used in the Aires Crystal (2019 model). Both studies were managed by I. Serov with researchers K. Korshunov, I. Soltovskaya, T. Shamko, and consultants Prof. A. Kopyltsov and Prof. A. Jukna.
C20S5G Microprocessor Specifications
Substrate: 7.6 mm × 7.6 mm • Slit width: 0.2 μm • Slit depth: 0.6 μm • Amplification gain coefficient (Kl): 2–6×
Results by Frequency
6 GHz (Wi-Fi 5G)
28 GHz (mmWave 5G)
Coherent Spatio-Temporal Transformation Confirmed at Both Frequencies
At both 6 GHz and 28 GHz, simulations confirmed that the C20S5G converts incident electromagnetic radiation into a coherent spatio-temporal self-affine form (hologram). Over the central region, a marked increase in field strength and intensity occurs, with a counter-resonance forming along the diameters, causing potential multiplication. The result is a maximally neutral zone at center and a singularity point where energy transforms from one state to another per the first law of thermodynamics.
Four-Level Derivative Resonance Filter
The transformation occurs through a four-level cascade: (1) wave superposition from the material fractal circuit; (2) transformed external radiation from the 1st derivative; (3) interaction of waves, half-waves, and quarter-waves forming three-level resonant relationships; (4) harmonization of external radiation via a universal Fourier filter. The initial wave flow (6 GHz or 28 GHz) is differentiated into eigen harmonics, forming a matrix of spatiotemporally harmonized electromagnetic superpositions.
Stability via Noether's Theorem
The stability of the resulting wave superposition is grounded in the fundamental symmetry principle of the Aires resonator's fractal topology, as formalized by Noether's theorem: every continuous symmetry of a physical system corresponds to a conservation law. The constant inflow of potential from outside striving to fill the neutral zone ensures the emerging superposition is highly stable.