| viXra.org > Quantum Gravity and String Theory > viXra:1405.0331 |
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| viXra.org > Quantum Gravity and String Theory > viXra:1405.0331 |
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Quantum Gravity and String Theory |
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Authors: Cliff Ellgen
We use the assumptions of knot physics to prove that a collection of interacting neutrinos and antineutrinos maximize their quantum probability when all neutrinos are of the same helicity and all antineutrinos are of the opposite helicity. In a previous paper we showed that the geometry of gravity spontaneously breaks symmetry. We show here that the geometry of gravity couples the neutrino linear momentum to its quantum phase. Likewise, the quantum phase of an interacting neutrino couples to its spin angular momentum. Therefore, the symmetry breaking of gravity couples the linear momentum of an interacting neutrino to its spin angular momentum, producing consistent helicity.
Comments: 8 Pages.
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[v1] 2014-05-27 18:52:58
[v2] 2019-07-10 12:10:57
Unique-IP document downloads: 391 times
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