RSL0001activev1No Independent Dark-Sector Particle Required in the τ Readout
Reader-facing result: in the τ-macrocosm readout, flat rotation curves and large-scale structure are attributed to carrier capacity-gradient and holonomy structure rather than to a separate dark-matter particle sector.
Payload
Result. In the τ-macrocosm readout, the orthodox observations typically attributed to a dark-matter particle sector — flat rotation curves, large-scale structure, gravitational lensing amplitudes — are instead attributed to carrier capacity-gradient and holonomy structure on the τ-substrate.
The framework does not predict the absence of a dark-matter particle. It predicts that no independent dark-sector particle is required to account for the orthodox observations.
Result
The orthodox dark-matter sector is the τ-framework's readout of carrier capacity-gradient and holonomy structure — no independent particle required.
The reduction follows from the τ-Einstein bridge (BRG0001) applied to the substrate’s carrier-capacity geometry. The orthodox gravitational field equations recover from the local-readout functor on the τ-Einstein identity, and the carrier-capacity term shows up where orthodox treats dark matter. This is a readout claim, not a bridge claim — the framework doesn’t assert “dark-matter halo = τ-object X”; it asserts “what orthodox is reading out as dark matter is, in the τ readout, carrier capacity-gradient structure.”
Scope limits. This result does not claim that direct-detection experiments will fail. Direct detection of a dark-matter particle would be consistent with the framework only if the particle's properties also factor through carrier-capacity geometry — a strong additional constraint, but not a direct framework violation.
Inspection route
Falsification surface: cid000016
Identifiers
Aliases & legacy IDs
RSL0007no-independent-dark-sectorRelease lines
corpus_v3_workingRelations
Upstream dependencies (3)
Appears in (1)
Supports / Tested by (2)
Downstream uses (computed) (2)
Items in the corpus that reference this one via load-bearing relations. Computed from the full corpus-v3 graph at build time.
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