UNNS κ-Series Selection Laboratory

Chambers κ₀ – κ₁ · Internal Selection & Symmetry-Based Resolution · Chamber κ₂ · Conditional Selection via Topological Parity

Selection Saturation Symmetry Discrimination UNNS Research Collective (2025)

The κ-series probes internal selection mechanisms in τ-relaxed systems. Chamber κ₀ establishes that τ-dynamics alone cannot uniquely determine outcomes, while Chamber κ₁ resolves multiplicity through symmetry-based discrimination — demonstrating that structural selection operates independently of energy minimization. Chamber κ₂ demonstrates conditional selection. Selection activates only when Ω₂ detects a meaningful parity distinction (EVEN and ODD both present; variance over parity-bearing states exceeds ε). When Ω₂ is inactive, the ensemble passes through unchanged.

⚗️ Integrated Selection & Symmetry Analysis Array · Conditional Selection

Chambers κ₀–κ₁–κ₂ operating in synchronized validation mode — v2.0.0 (κ₁-compatible)

κ-Series v1.0.0
CHAMBER κ₀
SELECTION SATURATION Chamber
This laboratory chamber demonstrates that τ-relaxation alone cannot uniquely determine final state. Multiple stable outcomes persist despite increased precision, requiring an internal selector κₙ.
✓ COMPLETE
CHAMBER κ₁
Symmetry-Based Internal Selection
Chamber κ₁ operates on τ-stable ensembles from Chamber κ₀, selecting states based on intrinsic symmetry measures. It does not modify τ-dynamics or generate new states—it purely selects among existing τ-stable outcomes.
✓ COMPLETE
CHAMBER κ₂
Conditional Selection via Topological Parity
Chamber κ₂ implements conditional selection via topological parity. Unlike universal selection operators, κ₂ only activates when specific structural conditions are met.
✓ COMPLETE

UNNS Research Collective | κ-Series: Internal Selection Laboratory

Complete implementation of symmetry-based selection mechanisms

Chamber κ₀ v0.1.1-kappa1-patched | Chamber κ₁/κ₁′ v1.0.0 | Chamber κ₂ | Certified: 2026-01-18