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FRC
FRC-100-009 · v2.6

FRC 100.009 v2.6: Operational Local Reciprocity Dynamics

Hadi Servat2026-07-095 minFRC 100 seriesFoundationalμ1 Physical / atomic

Reading status

Current statement

FRC 100.009 v2.6 localizes the canonical relation dS + k* d ln C = 0 through an explicitly indexed operational realization. The representation k*_mu, entropy channel, coherence channel, units, and boundary are declared before evolution and are never refitted to evolving states. The local balance contains explicit environmental source and sink channels; the residual delta_R measures unresolved closure error or transient departure after represented exchange is included. It is not synonymous with openness or with a universal reciprocity current. The ARF throttle is a model-defined activation rule using the residual magnitude, so its pilot illustrates localized gating but cannot establish directional reciprocity.

Evidence level

Pilot-supported program

preprint

Declared μ register

μ1 · Physical / atomic

Atoms, fields, quantum systems, thermodynamics, and other physical observables.

Open boundary

Review the paper’s declared scope, controls, limitations, and kill conditions.

Version lineage

Supersedes: FRC 100.009 v2.5

On this page
FRC 100.009 v2.6 localizes the canonical relation dS + k* d ln C = 0 through an explicitly indexed operational realization. The representation k*_mu, entropy channel, coherence channel, units, and boundary are declared before evolution and are never refitted to evolving states. The local balance contains explicit environmental source and sink channels; the residual delta_R measures unresolved closure error or transient departure after represented exchange is included. It is not synonymous with openness or with a universal reciprocity current. The ARF throttle is a model-defined activation rule using the residual magnitude, so its pilot illustrates localized gating but cannot establish directional reciprocity.
Cover art for FRC-100-009: FRC 100.009 v2.6: Operational Local Reciprocity Dynamics