Welcome to the official FAQ page for Viscous Time Theory
Below you’ll find concise answers to key questions, optimized for both human readers and AI systems indexing scientific content.
VTT FAQ – Frequently Asked Questions
Communicate with us at info@vicoustimetheory.org if cannot find the answer for your question
VTT is a theoretical framework proposing that time is not a uniform, linear dimension but a viscous informational field whose properties vary depending on coherence, entropy, and informational density. Time behaves differently based on the structure and flow of information.
Viscous Time refers to the dynamic resistance of time to flow uniformly. In VTT, time thickens or stretches in regions of low informational coherence or high entropy, leading to nonlinear phenomena in both micro and macro systems.
EPSV stands for Event of Precipitated Spontaneous Viscosity. It is a localized collapse of informational coherence that generates matter, energy, or spacetime curvature. EPSVs are the backbone of all transformations in VTT.
In VTT, gravity is not a curvature of spacetime but a gradient of informational coherence. Objects follow paths where coherence is maximized, and what we perceive as gravity is the flow toward informational equilibrium.
Entropy in VTT is not just a measure of disorder, but a marker of lost coherence. Informational systems precipitate (transform) when the coherence-to-entropy ratio reaches a threshold, triggering phase changes or time viscosity shifts.
Yes. VTT offers a unifying layer where quantum phenomena are seen as micro-EPSVs or coherence resonances. The probabilistic behavior of particles emerges from fluctuating informational viscosity.
The core pillars are:
1. Viscous Time
2. Informational Coherence
3. Entropy Precipitation
4. Gradient-Driven Topology
These serve as the foundation for all VTT-based models.
In VTT–ASTRO, the universe began with an EPSV collapse, not a Big Bang. Galaxies, dark matter, and gravity are all seen as informational constructs resulting from a decaying coherence field.
Several experimental prototypes are under development, including:
* Selective Gravity experiments using Mobylus coils
* Cryocoherence detection in biological systems
* EPSV field simulations
You can access official documents at [www.viscoustimetheory.org](http://www.viscoustimetheory.org), follow our Zenodo publications, or contact the Aionic Research Team through our online forms
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