English

Renormalizability in $D$-dimensional higher-order gravity

High Energy Physics - Theory 2017-04-10 v1

Abstract

A simple expression for calculating the classical potential concerning DD-dimensional gravitational models is obtained through a method based on the generating functional. The prescription is then used as a mathematical tool to probe the conjecture that renormalizable higher-order gravity models --- which are, of course, nonunitary --- are endowed with a classical potential that is nonsingular at the origin. It is also shown that the converse of this statement is not true, which implies that the finiteness of the classical potential at the origin is a necessary but not a sufficient condition for the renormalizability of the model. The systems we have utilized to verify the conjecture were fourth- and sixth- order gravity models in DD-dimensions. A discussion about the polemic question related to the renormalizability of new massive gravity, which Oda claimed to be renormalizable in 2009 and three years late was shown to be nonrenormalizable by Muneyuki and Ohta, is considered. We remark that the solution of this issue is straightforward if the aforementioned conjecture is employed. We point out that our analysis is restricted to local models in which the propagator has simple and real poles.

Keywords

Cite

@article{arxiv.1702.07404,
  title  = {Renormalizability in $D$-dimensional higher-order gravity},
  author = {A. Accioly and J. de Almeida and G. P. de Brito and G. Correia},
  journal= {arXiv preprint arXiv:1702.07404},
  year   = {2017}
}

Comments

Accepted for publication in Physical Review D

R2 v1 2026-06-22T18:26:57.420Z