Neutrino Mass and Higgs Self-Coupling Predictions - Journal of Modern Physics

JMP > Vol.8 No.6, May 2017

Neutrino Mass and Higgs Self-Coupling Predictions ()

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DOI: 10.4236/jmp.2017.86059 1,210 Downloads 2,176 Views Citations

Author(s)

Ole L. Trinhammer

Affiliation(s)

Department of Physics, Technical University of Denmark, Kongens Lyngby, Denmark.

ABSTRACT

Combining with cosmological constraints we find a most probable value of 17.6 meV for beta decay anti-neutrinos. In passing we note that our expectation for the quadric Higgs self-coupling deviates from standard model expectations by a factor equal to the ud quark mixing matrix element. This matrix element also turns up by its square root in the expected triple self-coupling. We present neutrino mass eigenstates related to the neutron beta decay. In our first scenario we get 15.2 meV for the lowest mass eigenstate, in the second we get 0.917 eV. The latter is to be covered by the KATRIN experiment, while the former comes close to the CRES sensitivity in the Project 8 reach.

KEYWORDS

Neutrino Mass, Higgs Self-Coupling, Intrinsic Quantum Mechanics

Share and Cite:

Trinhammer, O. (2017) Neutrino Mass and Higgs Self-Coupling Predictions. Journal of Modern Physics, 8, 926-943. doi: 10.4236/jmp.2017.86059.

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