Computational Realization of Lambda-Field Coherence Dynamics v2.2
Reading status
Current statement
FRC 100.008 v2.2 corrects the executable Lambda engine and separates Lambda_obs, Lambda_eq, and optional Lambda_dyn. It also separates the canonical starred Boltzmann bridge k* from the pilot's state-derived kernel-score normalization s_ref. The latter is selected once from a declared pre-evolution reference and frozen only to normalize the computational coherence readout; it is not k* and carries no reciprocity-law status. Lambda_obs is an instantaneous transform; Lambda_dyn is a latent model state relaxing toward Lambda_eq; a fundamental field remains a separate conjecture. The finite-difference and oscillator pilots demonstrate executable closures only and do not establish physical ontology.
Evidence level
Pilot-supported program
preprint
Declared μ register
μ4 · Logical / conceptual
Logic, formal models, language as explicit reasoning, and computational design.
Open boundary
Review the paper’s declared scope, controls, limitations, and kill conditions.
Version lineage
Supersedes: FRC 100.008 v2.1
On this page
FRC 100.008 v2.2 corrects the executable Lambda engine and separates Lambda_obs, Lambda_eq, and optional Lambda_dyn. It also separates the canonical starred Boltzmann bridge k* from the pilot's state-derived kernel-score normalization s_ref. The latter is selected once from a declared pre-evolution reference and frozen only to normalize the computational coherence readout; it is not k* and carries no reciprocity-law status. Lambda_obs is an instantaneous transform; Lambda_dyn is a latent model state relaxing toward Lambda_eq; a fundamental field remains a separate conjecture. The finite-difference and oscillator pilots demonstrate executable closures only and do not establish physical ontology.
