Consider a region that has quantized the magnetron. The region propagate forward moving magnetic energy curled by gravitational force, its dominate wave mode, and very low frequency. It emits high energy, low frequency, highly quantized waves, the magneto gravitational wave . One of these waves impinges on a neighboring regions that has quantized to the electron level. What happens?
The gravitational field, moving in a large forward spiral with a forward phase; encounter the low dimensional region as anti gravity, meeting a gravity field with backward phase. The magnetic force dequantized and and starts a spiral motion with forward phase. All the forward momentum of this wave push mass and charge in the low dimension wave in the same direction. Intense light, flowing matter, electrons nearly the speed of light all move in the same direction, the region is almost stripped of surface matter and charge and emits intense white light. Something like this:
Not saying, just a prediction based on the theory
Or consider a quasar:
We would see this at our quantization level, but that burst could very be a massive pulse of a gravitational magneto wave.
In this model there is the quantization level and the phase level. An electron field has a forward phase, but in out world gravity had backward phase. A proton lives in a world with no electron, but has a slight phase backward electron field, making is positive charged, and so on. A world quantizing the magnetron contains a magnetic field with phase forward, unlike out world where all magnetism is phase backward. At a quantization level of any particle, thw particle is stable and slightly overfills relative to phase, hance phase delayed, and so on.
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