English

Exploring Cartan gravity with dynamical symmetry breaking

General Relativity and Quantum Cosmology 2015-06-12 v2 High Energy Physics - Theory

Abstract

It has been known for some time that General Relativity can be regarded as a Yang-Mills-type gauge theory in a symmetry broken phase. In this picture the gravity sector is described by an SO(1,4)SO(1,4) or SO(2,3)SO(2,3) gauge field AabμaA^{a}_{\phantom{a}b\mu} and Higgs field VaV^{a} which acts to break the symmetry down to that of the Lorentz group SO(1,3)SO(1,3). This symmetry breaking mirrors that of electroweak theory. However, a notable difference is that while the Higgs field Φ\Phi of electroweak theory is taken as a genuine dynamical field satisfying a Klein-Gordon equation, the gauge independent norm V2ηabVaVbV^2\equiv \eta_{ab}V^{a}V^{b} of the Higgs-type field VaV^a is typically regarded as non-dynamical. Instead, in many treatments VaV^a does not appear explicitly in the formalism or is required to satisfy V2=const.0V^2 = \mathrm{const.} \neq 0 by means of a Lagrangian constraint. As an alternative to this we propose a class of polynomial actions that treat both the gauge connection AabμaA^{a}_{\phantom{a}b\mu} and Higgs field VaV^a as genuine dynamical fields with no ad-hoc constraints imposed. The resultant equations of motion consist of a set of first-order partial differential equations. We show that for certain actions these equations may be cast in a second-order form, corresponding to a scalar-tensor model of gravity. One simple choice leads to the extensively studied Peebles-Ratra rolling quintessence model. Another choice yields a scalar-tensor symmetry broken phase of the theory with positive cosmological constant and an effective mass MM of the gravitational Higgs field ensuring the constancy of V2V^2 at low energies and agreement with empirical data if MM is sufficiently large. More general cases are discussed corresponding to variants of Chern-Simons modified gravity and scalar-Euler form gravity, each of which yield propagating torsion.

Keywords

Cite

@article{arxiv.1302.1103,
  title  = {Exploring Cartan gravity with dynamical symmetry breaking},
  author = {H. F. Westman and T. G. Zlosnik},
  journal= {arXiv preprint arXiv:1302.1103},
  year   = {2015}
}

Comments

2 figures, matches published version

R2 v1 2026-06-21T23:21:12.823Z