Quote:
|
Originally Posted by Fortis
Which neutrinos do you mean? Electron, muon, tauon, and their respective anti-particles (you currently have six to choose from)?
Also, given that there is strong evidence that the electron neutrino possesses mass, (i.e. m_0<>0), are you also proposing that photons also possess mass?
|
As I said before the analog to the Ketterle surface gives two possibilities. Because the torus built of the higgsons creates the streams of the eterions so we have two states - one when the streams flow through the holes in the higgsons into the torus, and the second when the streams flow out through the holes of the higgsons. One of these fields I call the field of positive weak charge and second the field of negative weak charge. You will see that in the structures of nucleons and electrons there exist the analogous states which I identify with the fields of positive and negative electric charge. The particles built of the higgsons have four states because there exist two states of internal helicity (the clockwise or anticlockwise internal helicity is connected with the turns of the higgsons on the circular axis and with the rotation of the torus round its linear axis) and two states of weak charge (positive and negative). These four states I identify as four states of the neutrino: the electron neutrino, the electron antineutrino, the muon neutrino and the muon antineutrino. The taon neutrino and the taon antineutrino do not exist and future experiments will prove it. If there exist three neutrinos when why, for example, we do not observe different states of charged pion:
First: electron-electron antineutrino-muon neutrino-muon antineutrino
Second: electron-electron antineutrino-taon neutrino-taon antineutrino
Theird: ………..
All these problems I described in my book in chapter “Bound states of the elementary fermions”. In the decay of the taon there appear the same neutrinos as in the muon decay. As I said before the quark-gluon plasma does not exist then we do not need three neutrinos.
Calculated within my theory the mass of neutrino is equal to 3.32 . 10 to power -67 kg. It is very very very small mass but it causes that the path of the photon is curved in the gravitational field (the Einstein effect). As I said before the QED is wrong because gives good results but does not take into account the weak interactions. For example QED does not take into account the dark energy in spite that the wave function of the electron fills whole space.