Inflation in gauge theory of gravity with local scaling symmetry and quantum induced symmetry breaking

Motivated by the gauge theory of gravity with local scaling symmetry proposed recently in [1], [2], we investigate whether the scalar field therein can be responsible for the inflation. We show that the classical theory would suffer from the difficulty that inflation can start but will never stop. We explore possible solutions by invoking the symmetry breaking through quantum effects. The effective potential of the scalar field is shown to have phenomenologically interesting forms to give viable inflation models. The predictions of physical observables agree well with current cosmological measurements and can be further tested in future experiments searching for primordial gravitational waves.