Standard(-like) Model from an SO(12) Grand Unified Theory in
  six-dimensions with $S_2$ extra-space

Abrikosov; Adachi; Biggio; Burdman; Chapline; Chatzistavrakidis; Douzas; Fairlie; Fairlie; Farakos; Forgacs; Gogoladze; Gogoladze; Haba; Haba; Hall; Hanlon; Hasegawa; Hosotani; Hosotani; Jittoh; Joe Sato; Kapetanakis; Kapetanakis; Kawamura; Kawamura; Lim; Lim; Manton; Manton; Medina; Rajpoot; Randjbar-Daemi; Sakamoto; Sakamura; Scrucca; Takaaki Nomura

research

Standard(-like) Model from an SO(12) Grand Unified Theory in six-dimensions with $S_2$ extra-space

Authors: Abrikosov
Adachi
Biggio
Burdman
Chapline
Chatzistavrakidis
Douzas
Fairlie
Fairlie
Farakos
Forgacs
Gogoladze
Gogoladze
Haba
Haba
Hall
Hanlon
Hasegawa
Hosotani
Hosotani
Jittoh
Joe Sato
Kapetanakis
Kapetanakis
Kawamura
Kawamura
Lim
Lim
Manton
Manton
Medina
Rajpoot
Randjbar-Daemi
Sakamoto
Sakamura
Scrucca
Takaaki Nomura
Publication date: 8 March 2009
Publisher: 'Elsevier BV'
Doi

Abstract

We analyze a gauge-Higgs unification model which is based on a gauge theory defined on a six-dimensional spacetime with an

S^2

extra-space. We impose a symmetry condition for a gauge field and non-trivial boundary conditions of the

S^2

. We provide the scheme for constructing a four-dimensional theory from the six-dimensional gauge theory under these conditions. We then construct a concrete model based on an SO(12) gauge theory with fermions which lie in a 32 representation of SO(12), under the scheme. This model leads to a Standard-Model(-like) gauge theory which has gauge symmetry SU(3)

\times

SU(2)

_L

\times

U(1)

_Y

(

\times

U(1)

^2

) and one generation of SM fermions, in four-dimensions. The Higgs sector of the model is also analyzed, and it is shown that the electroweak symmetry breaking and the prediction of W-boson and Higgs-boson masses are obtained.Comment: 18 page