The proton/neutron model is an up/down quark-pair and one down/up quark. If the particle rotates on its centre it creates a long field projection and a short field projection. Both are interacting with the electron layer as the nucleus.
If that quark nucleus triangle rotates approaching light speed the short and long field projections compress in 'wavelength?' Until the long field projection becomes a short field projection, and the short field projection becomes a two dimensional field projection.
The nucleus alters in its effect on the electron shell but also the quark-pair are now behaving like a single quark-opposite. And the original single quark-opposite is now behaving like a new quark-exotic.
However what if the quark pair merged at light speed 'becoming' a kind of single quark-opposite, and the single quark-opposite became a new kind of quark that creates a two dimensional projection?
We have diverse quark types. What if the reason we have diverse quark types is some are travelling at light speed, or multiple harmonics of light speed already so they are in fact all the same quark-opposite and simply look different?
This is of course only one quark-series derived from the rotation of say up-quark-single/down-quark-pair. There is the other nuclear particle derived from down-quark-single/up-quark-pair and the exotic transforms of that group dynamic achieving ftl rotation and any harmonic relatives.
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