IET Quantum Communication (Jun 2024)
Gravitoelectric effect in the condensed magnetic sea
Abstract
Abstract Trapped graviton in magnetic seas induces magnetic fields as a function of time in the additional space. The Soon Joe generator made the Graviton set behave as free relativistic quantum particles. The current and voltage generated when the LED was turned on and off were measured five times. Measurements were made in units of 1/1000 of a second, and the measured data were summed. In the LED off‐state, the average current was −2.87E‐03 (A), and the average voltage was −1.44E‐01 (V) in VH and 6.83E‐01 (V) in VL. The average current in the LED on‐stage was −4.28E‐03, the VH was 2.14E‐01, and the VL was 6.57E‐01. The voltage difference was −8.27E‐01 in the off‐stage and −8.71E‐01 in the on‐stage. Less current was generated in the off‐stage, with less voltage difference. In this experiment, we confirmed that the graviton generates the current, and with the photons, more current is generated. This explains why the interactive induction protocol of gravitons or photons can be used to experiment with the magnetic field's ability to communicate or transfer energy with relativistic quantum particles. The gravitoelectric effect explains the photoelectric effect elements, and graviton has induced electricity as a physical entity in the magnetic sea.
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