EEG Parameters Under Mobile Phone EMF Exposure — Rybina (2020)

Year: 2020 Researcher: L. Rybina Cluster: EEG & Brain Activity Method: Electroencephalography Independent Study

Study Overview

This study by L. Rybina examines the effect of mobile phone electromagnetic field (EMF) radiation on electroencephalogram (EEG) parameters in human subjects. The central question: does mobile phone EMF exposure measurably alter brainwave activity, and if so, does the presence of an Aires resonator modify that effect?

EEG measures electrical activity in the brain as voltage fluctuations across frequency bands. Changes in band power — particularly alpha and theta waves — are associated with shifts in cognitive state, alertness, and neural processing. The study provides a controlled baseline for understanding how ambient device EMF interacts with the brain’s bioelectrical environment.

Methodology

Subjects underwent EEG measurement under three controlled conditions:

  1. Baseline — no active EMF source present
  2. EMF exposure — mobile phone active at standard operating proximity, no Aires device
  3. EMF exposure with Aires — mobile phone active, Aires resonator attached to device

EEG measurements were recorded across the standard frequency bands: delta (0.5–4 Hz), theta (4–8 Hz), alpha (8–13 Hz), and beta (13–30 Hz). Statistical comparison was performed across all three conditions for each band.

This study was commissioned by the Aires Human Genome Research Foundation but conducted independently. The Foundation provided test devices and research parameters; methodology, data collection, and conclusions were controlled entirely by the researcher.

Key Findings

Finding 1 — EMF Produces Measurable EEG Changes Mobile phone EMF exposure produced statistically measurable changes in EEG parameters relative to baseline. The most consistent changes were observed in the alpha and theta frequency bands, both of which are associated with resting cognitive state and attention regulation.
Finding 2 — Aires Device Attenuated EEG Deviations When the Aires resonator was present, the deviation from baseline EEG readings was reduced compared to the EMF-without-Aires condition. The effect was consistent across the study sample, suggesting the resonator’s coherent field transformation influences the interaction between device EMF and the brain’s bioelectrical environment.
Finding 3 — Alpha Band Most Responsive Alpha band activity showed the greatest sensitivity to both EMF exposure and the presence of the Aires device, consistent with alpha’s role as an indicator of cortical arousal state and its known susceptibility to environmental electromagnetic stimuli.

Scientific Context

The relationship between radiofrequency EMF and brain electrical activity has been examined in the scientific literature since the widespread adoption of mobile phones. EEG studies occupy a central position in this research because they provide a direct, non-invasive measure of brain bioelectrical state with high temporal resolution.

This study contributes to the Aires research program’s EEG cluster alongside parallel work by M. Sysoev, including a joint Sysoev–Rybina study published in 2025. Taken together, the EEG studies form a consistent picture: mobile phone EMF produces detectable changes in brain electrical activity, and the presence of an Aires resonator is associated with a return toward baseline readings.

The proposed mechanism: the Aires fractal diffraction grating coherently transforms incident EMF rather than blocking or absorbing it (Patent No. 2312384). The transformed field retains the information content of the original signal while reducing its biological disruptiveness — an effect the EEG studies measure as a reduction in deviation from non-EMF baseline.

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