Thursday, April 17, 2014

When atomic phase imbalance makes light

Its a simple process.  The phase imbalance builds up, the quantization starts at the lower level and works up, always chasing free nulls.  The natural desire of the phase imbalance is to chase free nulls, bringing them into the atom. Eventually it reaches the magnetic wave number, and the nulls get grouped, but the wave won't find a stability as the electron wave number has taken the room for additional quants. The electron phase, at the electron wave number chases the nulls corralled by the magnetic wave number. The magnetic keeps moving out, the electron wave keeps chasing it, they never neither able to corral enough nulls to make a standing wave.

That is why we get this impedance function being the ratio of two wave numbers.  The wave formations will chase each other, moving free nulls backwards all along the path.

The energy of the light is frequency, an that is determined by the orbital slots of the atom, but all the orbital slots are a division of the mass quant and the wave quant.  The electron has charge because its associated wave number is too big for the mull quantization. That is the overflow of phase into the electron nulls from the last post. But the impedance of EM wave is fixed because that wave number is fixed, as is the magnetic wave number.

Muonic hydrogen, with that massive charge muon, very likely has jumped a wave number, hence will have a different impedance ratio with the magnetic.

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