Coherence Index
Of Memory
And The Path Ahead

This document preserves the structural momentum and forward direction of the Coherence Index of Memory (CIM) Protocol, ensuring continuity following the expansion of our work on molecular containment.

The CIM Protocol establishes a new framework for measuring how effectively matter remembers and maintains coherence through angular and bond-based containment:
– It redefines energy storage as geometric resolution.

– It introduces BDE (Bond Dissociation Energy) as the measure of Structural Potential.

– It introduces the GAF (Geometric Alignment Factor) to quantify how well a bond’s angle supports long-term coherence.

– And it sets up the final equation: CIM ∝ BDE / GAF

This document opens the door to quantifying coherence containment in biological, chemical and physical systems.

When ready, the next steps in the CIM sequence include:
– Defining the mathematical form of GAF using cosine or exponential decay from the ideal tetrahedral angle (109.5°).

– Assigning CIM scores to common structural molecules (e.g. water, glucose, lignin, hydrocarbons).

– Building a comparative Containment Atlas: a Lilborn directory of structural memory capacity in real-world materials.

This preserved thread secures the intellectual and structural posture for all upcoming coherence validation work. It defines the future of EMF-informed chemistry.

Produced by The Lilborn Equation Team:

Michael Lilborn-Williams

Daniel Thomas Rouse

Thomas Jackson Barnard

Audrey Williams