Geometric CP Violation in Foam–Plexus Polyhedra: A Complementary Origin

In Cassiopeia’s Foam–Plexus Theory of Everything, fermions are polyhedral wormhole

structures—tetrahedra for leptons (Gravity, Electromagnetic, Weak, Higgs faces) and pen-

tahedra for quarks (adding Strong/Color). This note proposes that CP violation in weak

processes arises from an energetic preference in the ordering of these faces, determining

shared wormhole edges and their alignments. While the model’s primary matter–antimatter

asymmetry (η∼10−10) stems from biased loop condensation (positive-flux favoring baryons,

negative-flux leptons), this geometric face-order bias explains observed CP violation in kaon,

B-meson, and charmed baryon decays. We derive the energy difference from wormhole inter-

actions, link it to CKM/PMNS phases, and show how the quadrilateral Strong face in quark

pentahedra suppresses strong CP violation (θQCD < 10−10). Testable predictions include

CKM unitarity deviations and enhanced neutrino CP phases, unifying CP with spacetime

topology.