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Line 203: </ref> almost at the same time. They show that massive neutrinos can be incorporated into the model by disentangling the KO-dimension (which is defined modulo 8) from the metric dimension (which is zero) for the finite space. By setting the KO-dimension to be 6, not only massive neutrinos were possible, but the see-saw mechanism was imposed by the formalism and the fermion doubling problem was also addressed. The new version of the model was studied in,<ref name="10.4310/ATMP.2007.v11.n6.a3"> ~~<ref name="10.4310/ATMP.2007.v11.n6.a3">~~ {{cite journal \| title = Gravity and the standard model with neutrino mixing \| last1 = Chamseddine \| first1 = Ali H. Line 219 ⟶ 218: \| arxiv = hep-th/0610241 \| s2cid = 9042911 }} </ref>, and under an additional assumption, known as the "big desert" hypothesis, computations were carried out to predict the [[Higgs boson]] mass around 170 [[GeV]] and postdict the [[Top quark]] mass. In August 2008, [[Tevatron]] experiments<ref name="arxiv:0808.0534">

Noncommutative standard model: Difference between revisions