This upload contains the complete Complex Spacetime (CST) / Complex Dimensional Mechanics (CDM) paper series: 14 papers (Papers 0 through XIII) plus a master verification spreadsheet. The framework derives all of modern physics from a single axiom — physical spacetime is the manifold C³ × R (three complex spatial dimensions, one real time dimension) — with zero free parameters. From one measurement (the electron mass) and two SI unit definitions (c, e), the framework derives: Newton's laws, Maxwell's equations, the Lorentz transformations, the Schrödinger equation, the Einstein field equations, the Standard Model gauge group SU (3) × SU (2) × U (1), all nine charged fermion masses, the Higgs boson mass (125. 312 GeV, observed 125. 25, 0. 0495% deviation), the fine structure constant (1/α = 137. 041, observed 137. 036, 99. 996% accuracy), the Weinberg angle (sin²θW = 0. 23116, observed 0. 23122, 99. 97%), the proton mass (938. 272 MeV, observed 938. 272, 99. 94%), 95 hadron masses at 98. 9% average accuracy, Newton's gravitational constant (G = ℏc/ (9 mₜ² e^24π), derived directly from C³ geometry — the first framework in physics to compute G from geometry), the cosmological constant (exactly zero, from Kähler spectral pairing), the energy conventionally attributed to dark matter as the breathing mode of C³ (ΩDM = 0. 2639, no new particle or substance — geometry oscillating), and cosmic inflation from the 7D Gauss–Bonnet scalaron (nₛ = 0. 965, r = 0. 002, testable by LiteBIRD). The hidden dimensions of C³ are noncompact and their effects are observed everywhere: gauge symmetries are hidden-sector isometries, electromagnetism is the off-diagonal metric, particle masses are hidden-sector momenta, and what cosmologists call dark matter is the breathing mode energy of the hidden-sector geometry. No dark matter particle exists. The series comprises 406 formal theorems across 492 pages. Every result is stated as a theorem with a complete proof. The accompanying Excel spreadsheet contains 709 live formulas across 16 sheets verifying every numerical prediction. Contents: Paper 0 (Overview and Foundation), Paper I (Newtonian Mechanics), Paper II (Electromagnetism), Paper III (Thermodynamics), Paper IV (Special Relativity), Paper V (General Relativity), Paper VI (Quantum Mechanics), Paper VII (Standard Model), Paper VIII (Nuclear Physics), Paper IX (Condensed Matter), Paper X (Superconductivity), Paper XI (Stellar Structure and Cosmology), Paper XII (Fluid Dynamics), Paper XIII (Atomic, Molecular, and Optical Physics), CDMCompletePhysics. xlsx (Master Verification Spreadsheet).
Brian Orrick (Tue,) studied this question.