The Artian Hamiltonian Framework for QTT

This paper develops the Hamiltonian of Quantum Traction Theory (QTT) on Artian Geometry as a finite-capacity source generator of completed address events. The laboratory Hamiltonian is not taken as the primitive object: it is the access image of a deeper substrate ledger. Where a textbook Hamiltonian generates time evolution for a system already placed in a laboratory frame, the QTT Hamiltonian must first specify which completed address events are being funded, which clock is being used, which same-universe bundle has closed, and which access channel is permitted to read the result.

From the axioms A1–A7 the framework is built in strict constructor order: the completed address event with its noncircular Artian ruler; the real J-dial source Hilbert module; the source Hamiltonian core; the full Artian ledger generator including birth (B_A3), endurance/destruction (D_A2), and bundle-closure (C_A7) maps; the Access Law mapping the source generator to its laboratory image through a clock Jacobian; the Unified Equilibrium Law (UEL) tying energy, action, four-volume support, and gravitational readout to a single Artian capacity endpoint E* = ℏ/t̃_A = ℏc/ℓ_A; the A6 finite-capacity ceilings; and the A7 same-universe bundle closure Q_bundle = 2π. Every standard sector — free particles, photons, fermions, scalar/Higgs, QCD, thermal reservoirs, measurement, and gravity — is placed in the same grammar, in each case separating the source rail from the laboratory readout.

Companion rails connect the framework to the wider QTT corpus: unitarity as real-dial geometry, time reversal and Kramers degeneracy from dial conjugation, gauge covariance from local dial re-zeroing, the two-clock half-angle cos(π/8), the Faraday effect as a clock/access test, the endurance-to-Newton route fixing G_A = ℓ_A²c³/ℏ, worked sector dossiers, explicit laboratory-recovery derivations (Schrödinger, Dirac, Maxwell, Boltzmann, path integral), and a sector-by-sector status ledger. Every load-bearing relation is parameter-free, reducing to fundamental constants and fixed integers or angles forced by the axioms; no fitted scalar enters the source layer. A no-smuggling discipline forbids inserting an observed value into the Hamiltonian and naming it afterward. The discipline is deliberately plain: source first, access second, audit last — and a residual is treated not as a nuisance term but as a request for a missing source rail, access map, or axiom-level correction.

In the last version we added: systematic page-level anchoring to the QTT monograph (v10.01) for every construction, a visual reading map of the constructor order, and refined epistemic labelling, making each claim auditable against its source.