Physics & Engineering Research — Aires Resonator Validation
Physics & Engineering Research
External laboratory testing, mathematical modeling, and thermal imaging studies validating the electromagnetic properties of Aires Lifetune resonators. Three independent universities, 2016–2026.
Three-Phase Independent Laboratory Testing — Vilnius Gediminas Technical University
Phase I: EMR Resonator-Converter Baseline Testing — VGTU (2016)
Initial independent electromagnetic characterization at VGTU (now Vilnius Tech). Established baseline measurement protocols and confirmed resonator-field interaction — field modification, not absorption or shielding.
Phase IVGTUindependent testing2016Phase II: Interference Mechanism, Reflection-Mode and Array Testing — VGTU (2017)
Identified the interference mechanism behind the Phase I result: the resonator's reflected wave interferes with the incident wave, producing a new, localized wave with a different frequency and phase — not blocking or absorption. In optical reflection mode (the way the device is actually worn, close to the source), a single resonator showed a 20% average field reduction; four-resonator arrays tested in transmission mode showed 22–25% reduction. Also established Emin, the minimum threshold power needed to trigger the effect.
Phase IIVGTUinterference mechanism2017Phase III: 2D/3D Array Configurations at 2.4 GHz, Optimal Placement — VGTU (2018)
Final-phase validation across 2D and 3D resonator array geometries. Confirmed reproducibility across manufacturing batches.
Phase IIIVGTU2D/3D arrays2018Computational Studies
Mathematical Modeling: Aires C20S5G Converts 6 GHz WiFi → 6.85 & 5.38 GHz Output — Serov, Korshunov & Kopyltsov (2018)
Simulation of 6 GHz WiFi input produces periodic output at ν₁ = 6.85 GHz and ν₂ = 5.38 GHz — confirming frequency conversion. Published in Engineering Bulletin of the Don, No. 4, 2018.
mathematical modelingfrequency conversionpeer-reviewedComputer Simulation of Lifetune Resonator Response to EMF — Lukyanov, Kopyltsov & Serov (Springer ICICT 2022)
Springer Lecture Notes in Networks and Systems (ICICT 2022). doi:10.1007/978-981-19-1607-6_7. ITMO University, St. Petersburg.
computer simulationSpringerICICT 2022ITMO UniversityITMO Stage 2 Report (2025): Multi-Resonator Array Modeling + Thermal Imaging Validation
4- and 6-resonator arrays produce significantly greater response amplitude than single resonators. Thermal imaging (Testo 890) confirms model predictions. ITMO University, 2025.
multi-resonator arraysthermal imagingITMO Stage 22025Experimental Validation — ICICT 2026
Thermal Imaging Physical Confirmation of Self-Affine Resonator — Lukyanov (ICICT 2026)
Central fractal-etched resonator region shows emissivity ≈ 0.8 vs. smooth silicon periphery. Directly confirms the charge concentration model. ITMO University, presented at 11th ICICT, London, February 2026.
thermal imagingemissivityphysical confirmationICICT 2026Prof. Lukyanov Technical Q&A: How the Aires Resonator Works (ITMO University)
Prof. G.N. Lukyanov (Doctor of Technical Sciences, ITMO) answers 4 technical questions about the counter-field mechanism, Fourier filter cascade, and computed E_max values.
mechanism of actionFourier filterITMOGranted US Patent US12239835B2 — Coherent EMF Transformation Method (Serov / American Aires Inc.)
Filed October 2019. Granted March 4, 2025. Covers coherent field transformation at 2.4 GHz through 28 GHz. Expires December 13, 2040.
US patentUS12239835B2granted 2025→ Animal Model Studies | → EEG & Brain Research | ← All research publications