Errors in the physics: STANDARD MODEL OF ELEMENTARY PARTICLES
The standard model is understood as a theoretical construction in elementary particle physics, featuring electromagnetic, weak and a strong interactions of all elementary particles. Thus the standard model does not include gravitation.
The standard model consists of following standings:
All substance is consists of 12 elementary particles-fermion: 6 leptons (an electron, a muon, a tau-lepton, electronic neutrino, muonic neutrino and tau-neutrino) and 6 quarks (u, d, s, c, b, t) which can be united in three generations of fermions.
Quarks participate in strong, weak and electromagnetic interactions; the charged leptons (an electron, a muon, a tau-lepton) — in weak and electromagnetic; neutrino — only in weak interaction.
All three types of interactions arise as consequence of a postulate that our world is symmetrical concerning three types of the gauge transformations. Particles-carriers of interactions are:
8 gluons for a strong interaction (symmetry group SU (3));
3 heavy gauge bosons (W +, W −, Z0) for a weak interaction (symmetry group SU (2));
Is 1 quantum for an electromagnetic interaction (symmetry group U (1)).
Unlike electromagnetic and strong, the weak interaction can immix fermions from different generations that lead to instability of all particles, except for the easiest, and to such effects, as infringement of CP-invariance and neutrino oscillations.
Now about that is actually.
Weak interaction in the nature is not present, they are necessary only to quantum "theory".
Strong interaction, or simply telling kernel forces, is in the core interactions of constant magnetic fields of nucleons in a short-range band. Hence, strong interaction is the shape of electromagnetic interactions.
The number of leptons in the nature is not restricted to six. Thanks to collider operation will be unclosed also new, including with spin there is more than 1/2 (it is 3/2 5/2, 7/2 …).
Quarks in the nature are not present.
The postulate on symmetry of the world concerning three types of the gauge transformations is no more than a hypothesis and not proved.
Gluons in the nature are not present.
Heavy bosons are – but these are usual elementary particles and those much more three.
And here photon really exists in the nature.
The parent of instability of elementary particles is presence of channels of decay, and it is not related to weak interaction in any way.
And in summary, it is possible to add that with ordering and a structure of elementary particles the field theory has perfectly consulted without the aid of quarks with gluons and without manipulation with nature laws.
V.A.Gorunovich
6.8.2011