Massive Galileon Positivity Bounds
Abstract
The EFT coefficients in any gapped, scalar, Lorentz invariant field theory must satisfy positivity requirements if there is to exist a local, analytic Wilsonian UV completion. We apply these bounds to the tree level scattering amplitudes for a massive Galileon. The addition of a mass term, which does not spoil the non-renormalization theorem of the Galileon and preserves the Galileon symmetry at loop level, is necessary to satisfy the lowest order positivity bound. We further show that a careful choice of successively higher derivative corrections are necessary to satisfy the higher order positivity bounds. There is then no obstruction to a local UV completion from considerations of tree level 2-to-2 scattering alone. To demonstrate this we give an explicit example of such a UV completion.
Cite
@article{arxiv.1702.08577,
title = {Massive Galileon Positivity Bounds},
author = {Claudia de Rham and Scott Melville and Andrew J. Tolley and Shuang-Yong Zhou},
journal= {arXiv preprint arXiv:1702.08577},
year = {2017}
}
Comments
31 pages