Tier 1 Technical Derivations and Details
The following Tier 1 documents contain the detailed derivations, rule sets, and empirical validations summarized within the Tier 0 theory.
Tier 1 Lattice Elements
These documents define the base fabric, lattice structure, dormant-corridor behavior, and Constellus ledger rules used by the rest of the framework.
EOTU_Tier1_Fabric.pdf
Fundamental fabric structure, lattice properties, and CPP interaction rules.
Planned release.
EOTU_Tier1_LatticeComponents.pdf
Definition of lattice elements, adjacency rules, and allowable CPP configurations.
Planned release.
EOTU_Tier1_DormantCorridor.pdf
Definition and behavior of the dormant corridor, baseline fabric state, and deviation propagation.
Planned release.
EOTU_Tier1_Constellus.pdf
End-of-cycle state recording, ledger structure, and event tracking within the lattice.
Planned release.
Tier 1 Primoridal CPPs
These documents define the stable Region closures: proton closure, and neutron formation as a proton-electron close coupling.
EOTU_Tier1_Region00_CPP.pdf
Coherent Phase Packet definitions, geometry, intrinsic properties, and the foundational closure rules of the lattice framework.
Version 3.46.3 -- Released 05/08/2026.
EOTU_CPP_Primordial_Type_Emeon.pdf
Emeon as the quarter-phase primordial CPP state, including its phase role, signed channel behavior, and closure pathway into the electron Region.
Planned release.
EOTU_CPP_Primordial_Type_Zeteon.pdf
Zeteon as the neutral primordial CPP state, including its zero-phase role, stabilizing triad behavior, and closure support within compound Regions.
Planned release.
EOTU_CPP_Primordial_Type_Uniteon.pdf
Uniteon as the central reinforcing primordial CPP state, including its phase role, dominant formation ratio, and participation in Proteon and proton closure.
Planned release.
EOTU_CPP_Primordial_Type_Deniteon.pdf
Deniteon as the complementary primordial CPP state, including its phase role, signed channel behavior, and participation in Proteon formation.
Planned release.
Tier 1 The Electron
These documents define the first stable Region closures: CPP structure, electron closure
EOTU_CPP_Primordial_Type_Emeon.pdf
Emeon as the quarter-phase primordial CPP state, including its phase role, signed channel behavior, and closure pathway into the electron Region.
Version 3.46.0 -- Released 05/08/2026.
EOTU_Tier1_Emeon-Resolved-States.pdf
The Emeon-Resolved-States (ERS) family begins with an Emeon core and resolves through zeteon closure. A fully closed electron corresponds to an EZZZ configuration: an Emeon core constrained by a planar zeteon triad. Partial closure configurations retain unresolved curvature and therefore remain unstable in the form of Tau and Muon.
Version 3.46.2 -- Released 05/08/2026.
EOTU_Tier1_Region01_Electron.pdf
Electron structure (EZZZ), geometry, and interaction behavior.
Version 3.46.2 -- Released 05/08/2026.
EOTU_Tier1_Neutrinos.pdf
Neutrino transport as unresolved phase transfer, including emission, propagation, and constrained absorption within the lattice framework.
Version 3.44.1 -- Released 05/08/2026.
Tier 1 Atomic Scale Regions
These documents extend Region behavior into nuclei, atoms, ionization, and molecular bonding using corridor geometry, shell constraints, and admissible equilibrium rules.
EOTU_Tier1_Region02_Proton.pdf
Proton structure (UUDZZZ), closure geometry, and stability conditions.
Version 3.46.0 -- Released 05/08/2026.
EOTU_Tier1_Region03_Neutron.pdf
Defines the neutron as a composite proton–electron Region, including encapsulation geometry, internal closure contribution, neutron charge-moment behavior, beta-decay execution rules, and free-neutron measurement-region effects.
Version 3.46.0 -- Released 05/14/2026.
EOTU_Tier1_Region04_Nucleus.pdf
Nuclear structure, alpha anchoring, and binding energy from corridor interactions.
Version 3.46.0 -- Released 05/08/2026.
EOTU_Tier1_Region05_Bonding.pdf
Molecular bonding derived from shared shell geometry and interaction constraints.
Version 3.46.0 -- Released 05/08/2026.
EOTU_Tier1_Region05_Ionization.pdf
Ionization behavior as discrete transitions under shell and spacing constraints.
Version 3.46.0 -- Released 05/08/2026.
EOTU_Tier1_Photons.pdf
Photon transport as resolved curvature-packet emission, including propagation and packet-matched absorption within the lattice framework.
Version 3.46.0 -- Released 05/08/2026.
Tier 1 Cosmology
These documents define the framework's cosmological comparison rules, including redshift, recurrence-scale interpretation, horizon comparison, and large-scale evolution through Constellus.
EOTU_Tier1_Region06_Cosmology.pdf
Cosmological structure and cross-epoch comparison within the EOTU framework, including recurrence scaling, redshift interpretation, horizon relations, and post Freeze-Out large-scale evolution.
Planned release.
EOTU_Tier1_Redshift.pdf
Cosmological redshift as endpoint recurrence-scale comparison through Constellus, including photon transport, epoch-energy projection, and horizon-scale comparison.
Planned release.
Tier 1 Future Work
These documents are reserved for additional Tier 1 source records as the framework is clarified, reorganized, or extended through further derivation work.
EOTU_Tier1_Energy.pdf
Energy definitions, mappings from curvature, and conservation within the lattice framework.
Planned Future work.
EOTU_Tier1_EM.pdf
Electromagnetic field behavior as a lattice response to CPP phase and curvature transport.
Planned Future work.