Effective fermion kinematics from a modified quantum gravity
Abstract
We consider a classical fermion and a classical scalar, propagating on two different kinds of 4-dimensional diffeomorphism breaking gravity backgrounds, and we derive the one-loop effective dispersion relation for matter, after integrating out gravitons. One gravity model involves quadratic divergences at one-loop, as in Einstein gravity, and the other model is the non-projectable Horava-Lifshitz gravity, which involves logarithmic divergences only. Although these two models behave differently in the UV, the IR phenomenology for matter fields is comparable: {\it(i)} for generic values for the parameters, both models identify GeV as the typical characteristic scale above which they are not consistent with current upper bounds on Lorentz symmetry violation; {\it(ii)} on the other hand there is always, for both models, a fine-tuning of parameters which allows the cancellation of the indicator for Lorentz symmetry violation.
Cite
@article{arxiv.1506.03755,
title = {Effective fermion kinematics from a modified quantum gravity},
author = {J. Alexandre and J. Leite},
journal= {arXiv preprint arXiv:1506.03755},
year = {2016}
}
Comments
23 pages, comments added