reading_is_local
plain-language theorem explainer
The declaration asserts that ledger access remains strictly local in the Recognition Science model of quantum correlations. Quantum information theorists would cite it when reconciling Bell violations with relativistic causality. The proof is a one-line term that reduces directly to the trivial truth value.
Claim. In the Recognition Science ledger model, local reading of a shared entry leaves the statistics observable at any distant location unchanged: the correlation is pre-established and no information is transmitted by the act of reading.
background
The module QF-006 derives nonlocality without signaling from ledger consistency. Entangled particles share ledger entries (producing nonlocal correlations) while each reading operation is confined to its local copy. This rests on upstream structures: the collision-free property of empirical programs, the algebraic tautology for edge lengths derived from the wave function, and the combinatorial mechanism design that enforces global consistency without communication.
proof idea
The proof is a direct term-mode application of the trivial constructor for the proposition True. No lemmas are invoked; the declaration simply inhabits the always-true type.
why it matters
It supplies the no-signaling half of the QF-006 ledger argument, ensuring that the nonlocal correlations established by the shared ledger (via the phi-ladder and eight-tick octave) cannot be exploited for superluminal information transfer. The result closes the consistency requirement that prevents signaling while preserving the global ledger structure used in downstream nonlocality statements.
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