Justification
Why a three-coloured electron?
The notion of a three-coloured electron is foreign to the current Physics, it is thus necessary to justify it.
In the previous page all the 3 charges of color of the quantum chromodynamique constitutes, alternately, 3 summits or center of an equilateral triangle.
In the first case, 3 charges of color are different: it is the electron, in the second case, they are merged: it is the photon.
This alternation of state photon and of state electron could be the foundation of the electromagnetism. So would be justified the existence of a three-coloured electron, as far as this operation brings to light the other data.
During the interval of the alternation charges of color – which are not any more photon and not still electron, or the more electron and not still photon – has an intermediate state which the current physics says undulatory. So is revealing the duality wave-particle.
And this interval enters the state photon and the state electron, constitutes an elementary space, crossed at elementary time, with an elementary speed, under the effect of all the 3 charges of color in movement.
But it is also necessary to answer the argument according to which the electron does not carry a charge of color because it is an insensible lepton in the strong Strength, and if it is classified in the family colored with quarks, it is because, in the theory of Big Unification, where it is an actor, the Group of a symmetry SU(5) can group together quarks and leptons within the same representation.
Actually, if the electron is unaffected by the strong force, it is because it is already saturated by the 3 charges of color.
To justify the existence of the quantum electron, we must show that it is an elementary particle, although it is a set of 3 charges of color.
The quantum electron is elementary because its 3 charges of color have never been observed separately and are always 3. It thus form a single whole indecomposable: the quantum electron.
Accuracy: the quark is not an isolated color charge, but a set carrying a color charge. Since the color charges are always 3 quarks, each carrying a charge of colors: red, green, blue, and go through 3 meet. They constitute the nucleus of the atom elemental hydrogen.
In this operation, they do not fuse, but are united by the strong force gluons that turn their charges of color – not the quark itself – in the opposite direction from that of the electron satellite, to create an electrical charge positive, neutralizing the negative charge of the electron, ensures the stability of the atom
The difference between all 3 charges of color of the electron and all 3 charges of color of the atomic nucleus is the first one set up and the latter 3 sets attached.