Capacitor Weight Loss Measurements with Dark Photon Effects

This experiment measures dark photons in a new U(1)-gravity s-matrix channel. The effective electron inertial mass that phase conjugates into dark photons is in a bosonic center of mass in a bunch of Fowler-Nordheim hopping conduction electrons accelerating in a Time Slit Capacitor (TSC) experiment in time, as opposed to a double slit experiment in space. The tunneling electrons are given Orbital Angular Momentum (OAM) that causes their interaction with a polyimide dielectric lattice. This is measured as the Fowler-Nordheim tunneling hopping conduction current turning on and off. Ohmic conduction current arcing produces an audible hum from the TSC. When the humming stops, so does the measured weight loss and the measured current increases 22.8 [μA] that almost equals the computed Fowler-Nordheim hopping conduction current of 19.9 [μA]. The active field in this experiment is the electrostatic field and the only measurable action the mass-charge has is its backreaction to dark photon emission. The backreaction to dark photon emission is U(1)-gravity freefall kinetic energy. U(1)-gravity is 29 orders-of-magnitude stronger than gravity and represents a new standard model force. Mass charge in U(1)-gravity freefall cannot backreact to dark photon emission and the humming restarts and so does the measured weight loss and the measured current drops 23.3 [μA]. Turning on and off the electrostatic weight loss and the Fowler-Nordheim hopping conduction tunneling current is the main discovery of this experiment.