physics journals, and thus is naturally full of mathematics. For less technically readers, and for physicists just scrim reading, I'll try and
describe my idea as simply as possible here. So what i my idea? Briefly
it is that:
neutrinos have there own force that they feel.
mathematical reason for the electromagnetic force to exist. Its due to an idea called local gauge invariance. Local gauge invariance is a symmetry, where by you change the quantum mechanic phase of a field of particles, by a different amount at every point in space-time. If you do this to an spin 1/2 particle, like a electron, then you automatically have to add to your theory a spin-1 force carrying particle, which lead to the electromagnetic force.
So what about the neutrino, thats another spin-1/2 particle. If you vary it's phase at each place in space time does that lead to a force? Well the answer depends on the neutrino's mass, specific what type of mass it has. For ordinary particle, a left handing spinning particle has the same mass as a right hand spinning particle, this is known as Dirac type mass, after the English physics P.M. Dirac. But it doesn't look like neutrino have Dirac type mass, because they would be all those right handed neutrino states will the same microscopically small mass, as the left handed neutrino that we know about. And that would double the number of neutrino states during the Big Bang, which would upset, cosmologists wonderfully precise prediction of the the primordial abundances of the elements.
So neutrino mass must be of the other type, known as Majorana masses after the Italian physics, Ettore Majorana. So what happens if you try local guage invariance on a Majorana massed particle?. Well if there are only left handed particles, it doesn't work at all, but if there are both left and right handed particle but with different masses, it looks like it does work. But it doesn't then produce a force like the electromagnetic force, which is forbidden, that Majorana mass type. Instead it a produces a force where:
is specific mass), can always be left handed. Because for a massive
state spinning anti-clockwise, you can always accelerate, over take the
particle, and look at it again form behind. And you'd then see it as spinning clockwise. Well that a state, that is not supposed it exist, and the mass of a particle of the force it feels shouldn't change depending on how fast you're moving. In fact that is a statement of Einsteins principle of relavity, that, the law of physics are the same to all observers no matter what velocity there travelling at. So what happens to our left handed neutrino when you over take it. In my model, it emits a spin-1, i call an axi-photon, which then lets it be viewed a left handed particle in the frame of reference of the new observer. See the pictures.
spinning anticlockwise.
opposite direction, but still spinning as before. But that is
a state that can't exist.
(Majorana Mass type) neutrino
converts to an anti-neutrino, when
you over take it. But this is odd, and violates Lepton Number Conversion. Often Physicists invoke a Spinless particle called a Majoron which converts the neutrino to an anti-neutrino.
neutrino can instead reverse its
spin at the same time as it
reverses direction by emitted a
axi-photon, which has Spin-1.
read on to page 2, where i explain, how it shows that the weak force
has to be handed, what it means for quarks, why the proton has to
be stable, and how my Axial force, may explain dark energy.
