Light-by-Light Scattering and Spacetime Noncommutativity
Abstract
The aim of this article is to explore a potential usability of a photon-photon self-interaction from the noncommutative quantum electrodynamics (NCQED) in the case of light-by-light scattering () in ultraperipheral Pb+Pb collisions, a reaction measured recently by ATLAS and planned for future experiments in hadron-hadron colliders. We compute the total cross section from both, the full one-loop standard model (SM) and the tree-level NCQED amplitudes, in the equivalent photon approximation with impact parameters, for various noncommutative scales, , and incoming nuclear spin-energy combinations. We find that NCQED contribution to the cross section has considerable increase at diphoton invariant mass range higher than , while the SM contribution is strongly suppressed in such region. Our results show that the current ATLAS TeV experiment can only probe GeV region. On the other hand, future hadron-hadron collider proposals could have the potential to extend to GeV region, making the performance of scattering on testing space-time noncommutativity close to that of the previously proposed photon-photon mode of linear electron-positron collider.
Cite
@article{arxiv.2002.01829,
title = {Light-by-Light Scattering and Spacetime Noncommutativity},
author = {Raul Horvat and Dusko Latas and Josip Trampetic and Jiangyang You},
journal= {arXiv preprint arXiv:2002.01829},
year = {2020}
}
Comments
8 pages, 3 figures, version to be published in PRD