Confidence
0.78
Practicability
0.32
Evidence
0.12
Fringe Score
0.88
Risk
0.18
TRL
2
Goal
Enable interstellar communication using torsion fields and provide a method for addressing signals across vast distances.
Problem
Current long-distance communication technologies are limited by signal attenuation and latency; the authors propose torsion fields as an alternative medium.
Concept Summary
The authors describe torsion fields (TF) as a hypothesised physical phenomenon that can be generated and detected with specialized devices. They claim that TF can carry information across interstellar distances and propose an "imaging addressing method" for directing such communications. The book includes schematic descriptions of several TF generators and detectors.
Principles
- Torsion field theory
- Scalar wave propagation
- Magnetic-gravitation coupling
Scientific Domains
Mechanisms of Action
- Generation of torsion fields via electromagnetic coils
- Detection of scalar wave signatures
- Magnetic-gravitation interaction for signal modulation
Energy Sources
Applications
- Interstellar data transmission
- Geophysical anomaly detection
Limitations
- No peer-reviewed experimental data presented
- Physical mechanism of TF not accepted by mainstream science
- Device schematics lack quantitative specifications
Red Flags
- Extraordinary claims without empirical validation
- Potential overlap with overunity/free-energy narratives