Shining Light on Polarizable Dark Particles
Abstract
We investigate the possibilities of searching for a self-conjugate polarizable particle in the self-interactions of light. We first observe that polarizability can arise either from the exchange of mediator states or as a consequence of the inner structure of the particle. To exemplify this second possibility we calculate the polarizability of a neutral bosonic open string, and find it is described only by dimension-8 operators. Focussing on the spin-0 case, we calculate the light-by-light scattering amplitudes induced by the dimension-6 and 8 polarizability operators. Performing a simulation of exclusive diphoton production with proton tagging at the LHC, we find that the imprint of the polarizable dark particle can be potentially detected at 5 significance for mass and cutoff reaching values above the TeV scale, for 13~TeV and 300 fb of integrated luminosity. If the polarizable dark particle is stable, it can be a dark matter candidate, in which case we argue this exclusive diphoton search may complement the existing LHC searches for polarizable dark matter.
Cite
@article{arxiv.1609.01762,
title = {Shining Light on Polarizable Dark Particles},
author = {Sylvain Fichet},
journal= {arXiv preprint arXiv:1609.01762},
year = {2017}
}
Comments
24 pages, 3 figures. v2: Comments added. Analysis of intrinsic polarizability modified, conclusions unchanged. Matches JHEP version