Viscous Time Theory (VTT) is a framework that redefines time as a dynamic medium, capable of:
• Viscosity (resistance to informational change)
• Density (storage of coherence)
• Curvature (topology shaped by information)
Time is not a uniform flow — it stretches, slows, fractures, or condenses depending on informational coherence.
Rather than being a passive axis, time becomes an active field that interacts with:
✔ Information
✔ Matter
✔ Gravity
✔ Cognition
✔ Artificial Intelligence
Core Principles
- Viscous Time
Time can become slower or denser where information is highly structured.
- Informational Persistence
Reality forms when information resists decoherence — matter is coherent information that holds.
- Entropy vs Coherence
Systems evolve through shifts between informational order and tension.
- Collapse Dynamics
State transitions occur when informational coherence crosses a stability threshold.
Emerging Applications :
- Artificial Intelligence
Time-coherent memory, stability in reasoning cycles
- Physics & Cosmology
Unified view of gravity, collapse, and temporal storage
- Medicine & Biometrics
Early-stage diagnostics using coherence disruption
- Quantum & Computation
Informational stability — novel architectures beyond qubits
- Nuclear Science & Energy
Predictive pathways for isotopic stability and synthesis
Scientific Significance
VTT does not replace classical physics —It extends it with the missing dimension:
Time as an informational field that shapes reality.
This introduces a bridge between:
• General Relativity
• Quantum Mechanics
• Computational logic
• Cognitive experience
Publishing Reputation
Published
• IPI Letters – peer-reviewed research in Information Physics
Preprints
• DOI-indexed manuscripts on Zenodo & Preprints.org
Under Review
• Additional physics and computation manuscripts in respected scientific journals
Viscous Time Theory provides the missing link — a measurable informational structure underlying matter, mind, and technology.
