Geometric Chirality and the Timeless Baryon: An Exhaustive Cartographic Analysis of CP Symmetry Breaking in the $\Lambda_b^0$ System through the Lens of the TCGS-SEQUENTION Framework

This research report presents a rigorous reinterpretation of the Charge-Parity (CP) symmetry breaking observed in Λ0b baryon decays by the LHCb Collaboration, utilizing the ontological lens of the TCGS-SEQUENTION framework. We posit that the observed CP violation is not a temporal process of symmetry breaking but a manifestation of geometric chirality (bulk torsion) within a static, 4-dimensional Counterspace (C), projected onto the observable 3-dimensional shadow (Σ). By treating the LHCb experimental results as a high-precision cartographic survey, we demonstrate that the "interference" mechanism between tree and loop amplitudes corresponds to a non-local counterspace coupling (Ks). We map specific resonant decay topologies to "singular sets" in the 4D territory, verifying the framework’s "Identity of Source" axiom. Furthermore, we establish a homology between the "Standard Model Deficit" in physics and "Darwinian Chance" in biology, identifying both as projection artifacts of a unified Extrinsic Constitutive Law. We conclude by proposing specific cartographic inquiries to map the "Weak Extrinsic Law" governing baryonic asymmetry.