RTRT Publication Set — May 2026 V2. 2 Author: Garret R. J. KrampeAffiliation: GRE Foundry, Daram, Samar, PhilippinesLicense: CC BY-NC-ND 4. 0 Ten papers deriving fundamental constants from one measurement (the electron mass, mₑ = 510, 998. 950 eV) and five structural integers 2, 3, 4, 5, 7. Zero free parameters. No imported constants — c and hbar are derived within the framework (c = SPAN/ROT = 5/4, hbar = ETITO x tauTITO = 1). Papers: 1. Planck Constant as Projection Coefficient (8 pages) — hbar = 1 exact, h = 2pi. 2. Fine-Structure Constant (4 pages) — alpha^-1 = 137 + 9/250 - 1/1, 198, 750. 12 significant figures. 3. Gravitational Constant (4 pages) — G = 1/NG, NG = 14, 982, 846, 631 (prime). -0. 133 ppm. 4. Baryonic Mass Gap (5 pages) — 3⁴ - 2⁵ = 7². Beta decay at 0. 017%. All five primitives. 5. Nyquist Ceiling (12 pages) — Speed of light from sampling theory. Lorentz from 3-4-5. 6. PD2 Prime Universe (7 pages) — Particle classification from integer TITO addresses. 7. Yang-Mills Mass Gap (8 pages) — Delta = 3⁸ x ETITO = 1. 676 GeV. 3. 1% from lattice QCD. 8. Yang-Mills Clay Prize Formulation (14 pages) — Full formal derivation with Route B bridge. 9. Route B Bridge Note (3 pages) — One specialist question for OS reconstruction. 10. RGB Commutator Table (2 pages) — Exact su (3) isomorphism. 38 nonzero. k=7 zero closed. This release does not claim Clay Millennium Prize completion. The remaining open question is whether the projected transfer matrix Pₚhys T Pₚhys permits Osterwalder-Schrader reconstruction. See RTRTOpenItemsₐndStatus. md for honest status labels on each paper. Corrections from V2. 0, and V2. 1
Garret R J Krampe (Sun,) studied this question.