Technical Schematic: KPR v6.1 Framework and Calibration Map

This paper introduces the KPR v6.1 framework, a comprehensive solution to the Dark Matter problem by reclassifying it as a dynamic State of Relational Coherence (SRC) within an FLRW metric. The model proposes that the Galactic Dark Matter halo is composed of a heavy scalar field (X) with a lattice mass of 540 PeV and a decay lifetime of 1.0e27 seconds. Using a non-minimal coupling approach, KPR v6.1 establishes the Mascara Limit (270 PeV) as a fundamental energy threshold for monochromatic neutrino emissions (X to neutrino-antineutrino). This framework provides a unified, strictly falsifiable resolution to several major cosmological anomalies: IceCube-Gen2 Signature: Predicts a cumulative signal of 19 +/- 4 events at the 270 PeV monochromatic line (2028–2033), with a predicted Galactic Center-to-anticenter anisotropy ratio of 2.33. Hubble Tension (H0): Derives a kinematic scaling law where the neutrino event rate serves as a new independent cosmic ruler, bridging the gap between CMB-derived and local measurements. MOND Dynamics: Recovers the MOND acceleration constant (1.2e-10 m/s2) as an emergent property of the Non-localized Momentum Flux (NMF), explaining galactic rotation without the need for cold dark matter in galactic disks. CMB Cold Spot: Identifies the Eridanus anomaly as a localized X-field deficit, predicting an Integrated Sachs-Wolfe (ISW) contribution of -150 microK and a corresponding neutrino shadow at the same coordinates. Conclusion: KPR v6.1 explicitly rejects selective Tired Light scenarios in favor of FLRW expansion to maintain consistency with CnuB thermal limits and Supernova Ia time dilation. The model offers precise, non-adjustable benchmarks for the 2027–2033 observational window.