Dormant Cells and Dormant Corridors
Dormant Cells are phase-neutral lattice states that form during prime CPP redistribution. They retain a portion of the local curvature while lacking the phase and amplitude required to sustain an active CPP state.
Dormant cells remain part of the continuous fabric and serve as curvature reservoirs within the lattice. They contain no intrinsic oscillation and therefore act as amplitude- and phase-neutral reference states that stabilize the surrounding CPP population during formation.
Dormant cells originate as potential amplitude wells created by CPP redistribution events. As formation proceeds, these cells accumulate residual curvature released by subsequent redistributions.
With increasing formation cycles, dormant cells organize into contiguous regions within the lattice. These extended structures are referred to as Dormant Corridors.
Dormant Corridors consist of large, connected domains of dormant cells sharing a common mean amplitude \(\bar{A}\). They provide pathways through which curvature imbalances within the lattice are redistributed while preserving continuity of the fabric.
Summary
- Dormant Cells form during prime CPP redistribution.
- They retain local curvature but lack the phase and amplitude required for active CPP behavior.
- Dormant cells remain part of the continuous fabric.
- They act as amplitude- and phase-neutral reference states during formation.
- Connected dormant-cell regions form Dormant Corridors.
- Dormant Corridors share the mean amplitude \(\bar{A}\) and redistribute curvature while preserving fabric continuity.