NanoCERN: Table-Top Transition Physics Lab


Epistemic Control | NanoCERN Framework


NanoCERN:
Table-Top Transition Lab

Changing the axis of inquiry: Exploring extreme structure rather than extreme energy. A
laboratory for studying phase transitions and emergent behavior.

NOT a Collider

We are not chasing particles or recreating high-energy theatrics. NanoCERN is
about complexity scale ↓, not just energy scale ↑.

Transition Physics

Focusing on scaling breaks, geometry, boundary conditions, and information flow.
The method is the artifact.

Investigation Domains

1. Analog Gravity Systems

Studying vortex lattices and laminar-to-turbulent transitions
to test phase transition logic without cosmological requirements.

2. Optical Waveguides

Boundary-induced phase shifts and information density vs
propagation. Studying how geometry dictates behavior.

3. Mechanical Meta-materials

Scale-dependent response in lattices. Studies on emergent
“effective forces” in physical, falsifiable table-top setups.

4. Computational Investigation

The NanoCERN CLI: High-resolution simulations with strict
parameter freezes and AI-assisted adversarial testing.

Bounded AI Protocol

Allowed (The Assistant)

  • Detect regime changes
  • Explore parameter space
  • Stress-test assumptions
  • Propose math formulations

Forbidden (The Oracle)

  • Inventing explanations
  • Declaring “discoveries”
  • Optimizing toward bias
  • Circular reasoning logs

A controlled playground for method validation, not discovery hype.
Protecting the investigator from the noise of the “results age.”


Axis of Inquiry: Structure

Framework Lead: Shrikant Bhosale
Collaboration Interface: Antigravity / TwistPool Labs