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Biological Anomaly Detectors

Inventor: Jurij Kravchenko, Serge Kernbach, Vitaliy Zamsha, Yuri Kravchenko
Device: IGA-1 / Electric Double Layer Sensor (Biological Anomaly Detector)
Folder: kravchenko
Original: Open article
Confidence
0.60
Practicability
0.30
Evidence
0.30
Fringe Score
0.80
Risk
0.20
TRL
2

Goal

To detect and utilize long-range non-local interactions between devices and operators for communication and medical/diagnostic purposes.

Problem

Absence of reliable methods for measuring weak electrostatic/bio-field phenomena and for protecting living organisms from terrestrial electromagnetic anomalies.

Concept Summary

The invention combines electric-double-layer sensors, the IGA-1 device, and LED/laser emitters to create a bidirectional link between a remote emitter and a receiver. By modulating switching frequency and measuring output voltage, the system claims to identify substance states and to transmit information over distances ranging from meters to thousands of kilometres. A related patent describes a method for mapping electromagnetic surface fields using pulsed capacitive coupling, while another patent proposes protection against geopathogenic electromagnetic anomalies.

Principles

  • Electric double layer sensing
  • Capacitive coupling and pulsed current integration
  • Switching-frequency spectroscopy
  • Non-local (psychophysics) interaction

Scientific Domains

Biophysics Electromagnetism Medical Physics

Materials

  • Metal surfaces
  • Capacitors
  • Resistors
  • Operational amplifiers
  • LEDs
  • Laser diodes
  • IG-1 device components

Mechanisms of Action

  • Measurement of weak electrostatic fields via induced charge on a receiving electrode
  • Modulation of switching frequency to generate a spectral signature for substance identification
  • Operator-mediated consciousness influence on device output (psychophysical effect)
  • Remote coupling of emitter and receiver through an undefined non-local field

Energy Sources

Electrical power supply Laser/LED driver circuits

Applications

  • Medical diagnosis of electromagnetic anomalies
  • Operator training with bio-feedback
  • Long-range low-energy communication

Claimed Performance

Demonstrated device-to-device and operator-to-device interactions at distances >1 km, >100 km and >10 000 km; identification of material states via spectral line intensity.

Experimental Evidence

Experiments conducted with two sensor types (electric double layer, IGA-1) and LED/laser generators at the distances mentioned above; patent documentation describes laboratory measurements of weak electrostatic fields using pulsed capacitive coupling.

Replication Status

No independent replication reported in the article.

Limitations

  • Lack of peer-reviewed, quantitative data
  • Reliance on subjective operator states
  • No clear mechanism for non-local coupling

Red Flags

  • Claims of information transfer over >10 000 km without conventional wave propagation
  • Use of consciousness as a controllable input

Keywords

nonlocal interaction biofield electrostatic sensor teleportation of information geopathogenic anomalies electromagnetic field mapping

Related Technologies

Electrostatic field meters Bio-field detectors Magnetometer-based compensation systems

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