VGTU Phase II Report (2017): Four-Resonator Array Testing Confirms 20% EMF Reduction in Optical Reflection Mode

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VGTU Phase II Report (2017): Four-Resonator Array Testing Confirms 20% EMF Reduction in Optical Reflection Mode

By Dainius Jasaitis, Artūras Jukna — Vilnius Gediminas Technical University

VGTU Phase II Report (2017): Array Testing of Aires Resonator-Converter Groups

Institution: VGTU — Laboratory of Photovoltaic Technology, Department of Physics | Customer: UAB AIRESLITA | Year: 2017
Investigators: Dainius Jasaitis (Head of Laboratory), Prof. Artūras Jukna (Head of Physics Dept.)

Context

Direct continuation of the VGTU Phase I study (2016), which found a 27% average reduction in electric field intensity at 0.9–2.5 GHz when individual Aires R-Cs were applied to a transmitter in near-field optical reflection mode. Phase II extended the investigation to 2D arrays of four R-Cs to test group effects and characterize threshold power dependencies.

Methods

Four R-Cs of the same type mounted on a panel transparent to 0–8 GHz radiation. Two configurations: (a) four Aires Black Crystal R-Cs; (b) four Aires Shield R-Cs. Source: 800 W transmitter at 2.5 GHz. Equipment: Signal Hound Spectrum Analyzer with FFT analysis. Measurements taken at 2λ–10λ receiver distance in both optical transmission and optical reflection modes.

Key Findings

Optical reflection mode: Electric field amplitude in the 0.9–2.5 GHz band decreased by an average of 20% due to constructive interference between incident and reflected EM waves. Maximum damping efficiency when R-C group positioned within 3λ of receiver.

Optical transmission mode: Group R-C interaction equivalent to a metal plate screening the incident wave electric component.

Threshold power (Emin): Minimum activation power ≥ 2 W at 0.9–2.5 GHz. At higher frequencies, Emin was found proportional to photon energy (hν) and the square of electric field amplitude (E²). This provides a physically grounded model of the threshold activation mechanism for the first time.

Group optical transmission: Arrays showed optical transmission not exceeding 8%, confirming groups reflect the majority of interacting energy.

Significance

The Emin ∝ ƒ(hν, E²) relationship — established here for the first time — informed the MEMS design work in the C-series R&D reports (C16S, C28S, C32S) and is referenced in the Springer ICICT theoretical modeling papers. The Phase II findings confirmed that the field reduction effect is reproducible across group configurations.

VGTU Three-Phase Program

Phase I (2016) — Individual R-C baseline | Phase II (2017) — Group arrays, threshold characterization | Phase III (2018) — 2D and 3D multi-group configurations at 2.4 GHz | Physics and Engineering Cluster →