USP Field Theory — Double-Slit Reinterpreted (Voltage Sensor Integration)

This release presents a refined reinterpretation of the double-slit experiment under USP Field Theory.

Electrons remain bound: interference arises from resonance corridors (Δf_alignment ∝ V_applied), not particles traversing slits.

Photon vs. voltage separation: weak photons are excess spin-tension releases, while voltage reflects resonance-driven charge oscillations.

Detection OFF: Wide corridor forms, weak photons overlap to produce the interference pattern. Voltage oscillations are simultaneously measurable.

Detection ON: Resonance drains directly into the detector; no weak photon overlap, no pattern. Voltage persists as the universal resonance signature.

Dual-signal prediction: USP predicts measurable voltage both with and without interference patterns, offering a falsifiable distinction from standard quantum mechanics.

Risk resolved: The electron impact vs. photon emission conflict is eliminated by reinterpreting impacts as resonance-induced voltage events.

The document includes equations, atomic-level diagrams, voltage integration, and a poster-style visualization. It reframes the experiment as deterministic and testable, rejecting probabilistic or retrocausal interpretations.