I sort of bounced around with light a lot, not quite understanding completely understanding. The basic idea is that a phase imbalance, consisting of these two phase bubbles quantized by the energy level of the orbital, exit the atom and attempt to pack nulls along their path. Naturally, there are insufficient nulls in free space so the chase is nearly endless. But they do leave Nulls grouped along the path and that is what maintains the direction perpendicular to the relative curl of the phase imbalance.
When the light beam hits a proton the effect is wave splitting, just like gravity lensing or particle emission; its a queuing effect. The proton is not giving up nulls, and the light beam splits at the impacting surface, gaining symmetrical degrees of freedom. The quantized result is an actual phase minimum, like the Bernoulli effect, the extra degrees of freedom is greater than the impacting phase imbalance, leaving an opposite phase imbalance Hence the proton wave motion moves toward the light beam to fill the void, and in the exchange, the proton packed Null move opposite, as if the light beam pushed it along.
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