What I mean is that the world for a neutrino is only a collection of magnetic material properties and nothing else.
So normally the lightspeed is c0/sqrt(er * ur),
Where c0 is the speed of light in vacuüm, er is the relative permitivity and ur is the relative permeability of the material.
But for the neutrino's it's c0/sqrt(ur) because for the neutrino there is no electric interaction with matter, just magnetic interaction.
So in a diamagnetic material the neutrino has a speed higher than c0, even if er >1.
That would also explain why they don't loose energy by cherenkov radiation.
They are traveling at the speed of light, it's just that for neutrino's the speed of light >c0
This is not in conflict with relativity, relativity just says that a particle with zero rest Mass will travel at maximum possible speed.
But this maximum speed is not lightspeed, it's c0/sqrt(er * ur), Where er=1 if electric interaction is irrelevant.
It would be easy to verivy by placing a strong diamagnetic material in the bram and see if they arrive sooner.
Relativity seems a bit more relative than expected.
Neutrino's still going too fast
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Re: Neutrino's still going too fast
Bram=beam, typo in previous post.