English

Conformal Gravity from Gauge Theory

High Energy Physics - Theory 2017-07-11 v1 General Relativity and Quantum Cosmology

Abstract

We use the duality between color and kinematics to obtain scattering amplitudes in non-minimal conformal N=0,1,2,4 (super)gravity theories. Generic tree amplitudes can be constructed from a double copy between (super-)Yang-Mills theory and a new gauge theory built entirely out of dimension-six operators. The latter theory is marginal in six dimensions and contains modes with a wrong-sign propagator, echoing the behavior of conformal gravity. The dimension-six Lagrangian is uniquely determined by demanding that its scattering amplitudes obey the color-kinematics duality. The conformal gravity amplitudes obtained from the double copy are compared with the Berkovits-Witten twistor string and shown to agree up to at least eight points in the MHV sector. Our construction can be generalized in a number of ways. Adding scalars to the dimension-six theory gives Maxwell-Weyl gravity, and further adding phi^3 self-interactions among these scalars gives Yang-Mills-Weyl gravity. The latter is identified with Witten's twistor string for maximal N=4 supersymmetry. Deforming the dimension-six theory by adding a Yang-Mills term, m^2 F^2, gives a gauge theory that interpolates between marginal D=6 and D=4 theories. The corresponding double copy gives an interpolation between conformal gravity and Einstein gravity.

Keywords

Cite

@article{arxiv.1707.02965,
  title  = {Conformal Gravity from Gauge Theory},
  author = {Henrik Johansson and Josh Nohle},
  journal= {arXiv preprint arXiv:1707.02965},
  year   = {2017}
}

Comments

42 pages, 3 figures, 12 Feynman rules

R2 v1 2026-06-22T20:42:44.804Z