Classically Scale-invariant B-L Model and Conformal Gravity
Abstract
We consider a coupling of conformal gravity to the classically scale-invariant B-L extended standard model which has been recently proposed as a phenomenologically viable model realizing the Coleman-Weinberg mechanism of breakdown of the electro-weak symmetry. As in a globally scale-invariant dilaton gravity, it is also shown in a locally scale-invariant conformal gravity that without recourse to the Coleman-Weinberg mechanism, the B-L gauge symmetry is broken in the process of spontaneous symmetry breakdown of the local scale invariance (Weyl invariance) at the tree level and as a result the B-L gauge field becomes massive via the Higgs mechanism. As a bonus of conformal gravity, the massless dilaton field does not appear and the parameters in front of the non-minimal coupling of gravity are completely fixed in the present model. This observation clearly shows that the conformal gravity has a practical application even if the scalar field does not possess any dynamical degree of freedom owing to the local scale symmetry.
Cite
@article{arxiv.1305.0884,
title = {Classically Scale-invariant B-L Model and Conformal Gravity},
author = {Ichiro Oda},
journal= {arXiv preprint arXiv:1305.0884},
year = {2015}
}
Comments
Published version. arXiv admin note: text overlap with arXiv:1301.2709