We suggest the modification of the top - quark condensation model following
the scenario proposed in ZetaHiggs. In the suggested model at the
distances of the order of \$1/100\$ GeV the interaction between the fermions
and the Higgs boson is \$U(12)O(4)\$ symmetric, and all Standard Model
fermions enter it in an equal way. As a result, the theory at these distances
may be represented in terms of only one Majorana spinor that carries the
\$U(12)\$ index and, in addition, belongs to the spinor representation of \$O(4)\$.
Tho fermions of different \$O(4)\$ chirality may be transformed to each other
with the emission/absorbtion of the \$125\$ GeV Higgs boson. The symmetry
\$U(12)O(4)\$ is responsible for the relation between the Higgs boson
mass and the top quark mass \$M\_H^2 = m\_t^2/2\$. At the distances \$1/100\$ GeV
the mentioned symmetry is broken, and the interaction term dominates that
provides the nonzero mass of the top quark. On this level of consideration the
other SM fermions remain massless. It is supposed, that the corresponding
masses appear as perturbations.
%0 Generic
%1 Zubkov2014Modified
%A Zubkov, M. A.
%D 2014
%K higgs, top
%T Modified model of top quark condensation
%U http://arxiv.org/abs/1405.4067
%X We suggest the modification of the top - quark condensation model following
the scenario proposed in ZetaHiggs. In the suggested model at the
distances of the order of \$1/100\$ GeV the interaction between the fermions
and the Higgs boson is \$U(12)O(4)\$ symmetric, and all Standard Model
fermions enter it in an equal way. As a result, the theory at these distances
may be represented in terms of only one Majorana spinor that carries the
\$U(12)\$ index and, in addition, belongs to the spinor representation of \$O(4)\$.
Tho fermions of different \$O(4)\$ chirality may be transformed to each other
with the emission/absorbtion of the \$125\$ GeV Higgs boson. The symmetry
\$U(12)O(4)\$ is responsible for the relation between the Higgs boson
mass and the top quark mass \$M\_H^2 = m\_t^2/2\$. At the distances \$1/100\$ GeV
the mentioned symmetry is broken, and the interaction term dominates that
provides the nonzero mass of the top quark. On this level of consideration the
other SM fermions remain massless. It is supposed, that the corresponding
masses appear as perturbations.
@misc{Zubkov2014Modified,
abstract = {We suggest the modification of the top - quark condensation model following
the scenario proposed in \cite{ZetaHiggs}. In the suggested model at the
distances of the order of \$\sim 1/100\$ GeV the interaction between the fermions
and the Higgs boson is \$U(12)\otimes O(4)\$ symmetric, and all Standard Model
fermions enter it in an equal way. As a result, the theory at these distances
may be represented in terms of only one Majorana spinor that carries the
\$U(12)\$ index and, in addition, belongs to the spinor representation of \$O(4)\$.
Tho fermions of different \$O(4)\$ chirality may be transformed to each other
with the emission/absorbtion of the \$125\$ GeV Higgs boson. The symmetry
\$U(12)\otimes O(4)\$ is responsible for the relation between the Higgs boson
mass and the top quark mass \$M\_H^2 = m\_t^2/2\$. At the distances \$\gg 1/100\$ GeV
the mentioned symmetry is broken, and the interaction term dominates that
provides the nonzero mass of the top quark. On this level of consideration the
other SM fermions remain massless. It is supposed, that the corresponding
masses appear as perturbations.},
added-at = {2019-02-23T22:09:48.000+0100},
archiveprefix = {arXiv},
author = {Zubkov, M. A.},
biburl = {https://www.bibsonomy.org/bibtex/2acd87437b22cdb62bd3e25bc4fd45e91/cmcneile},
citeulike-article-id = {13175377},
citeulike-linkout-0 = {http://arxiv.org/abs/1405.4067},
citeulike-linkout-1 = {http://arxiv.org/pdf/1405.4067},
day = 16,
eprint = {1405.4067},
interhash = {a3f49152434582ce56d18699a8f28abb},
intrahash = {acd87437b22cdb62bd3e25bc4fd45e91},
keywords = {higgs, top},
month = may,
posted-at = {2014-05-19 09:51:29},
priority = {2},
timestamp = {2019-02-23T22:15:27.000+0100},
title = {{Modified model of top quark condensation}},
url = {http://arxiv.org/abs/1405.4067},
year = 2014
}