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v3.3.5
We construct a BRST formalism of Weyl invariant gravity by taking the extended de Donder gauge for general coordinate invariance and the scalar gauge for Weyl invariance. We point out the existence of a huge global symmetry, IOSp(10|10) symmetry, and show that there is a gravitational conformal symmetry as a subgroup. If we introduce a flat Minkowski metric in our formalism, we can construct a well-known "conformal symmetry" in four space-time dimensions. We then investigate a spontaneous symmetry breakdown of the gravitational conformal symmetry. We find that GL(4) symmetry is spontaneously broken down to the Lorentz symmetry, where the Nambu-Goldstone boson is nothing but the graviton. Thus, we can prove that the graviton must be exactly massless at the non-perturbative level by following the Nambu-Goldstone theorem. Similarly, special conformal symmetry and dilatation are also spontaneously broken where the Nambu-Goldstone boson is the dilaton. Thus, the dilaton must be exactly massless as well. Finally, by using the Kugo-Ojima BRST quartet mechanism, we show that the physical mode is only the massless graviton whereas the other particles including the dilaton belong to unphysical sector. Hence, the dilaton is confined in the unphysical sector as the Faddeev-Popov ghosts are in Yang-Mills theory, so we are free from the well-known fifth-force problem.