Searching for pseudo Nambu-Goldstone boson dark matter production in association with top quarks

TL;DR

This paper investigates the Large Hadron Collider's potential to detect pseudo Nambu-Goldstone boson dark matter produced with top quarks, considering derivative interactions and existing experimental constraints.

Contribution

It provides a comprehensive phenomenological analysis of pNGB dark matter production at colliders, including benchmark scenarios and implications for direct detection experiments.

Findings

Collider searches can probe pNGB DM in certain parameter regions.

Loop-induced interactions make direct detection experiments more sensitive.

Benchmark models guide future experimental analyses.

Abstract

Pseudo Nambu-Goldstone bosons (pNGBs) are attractive dark matter (DM) candidates, since they couple to the Standard Model (SM) predominantly through derivative interactions. Thereby they naturally evade the strong existing limits inferred from DM direct detection experiments. Working in an effective field theory that includes both derivative and non-derivative DM-SM operators, we perform a detailed phenomenological study of the Large Hadron Collider reach for pNGB DM production in association with top quarks. Drawing on motivated benchmark scenarios as examples, we compare our results to other collider limits as well as the constraints imposed by DM (in)direct detection experiments and the relic abundance. We furthermore explore implications on the viable parameter space of pNGB DM. In particular, we demonstrate that DM direct detection experiments become sensitive to many pNGB DM realisations once loop-induced interactions are taken into account. The search strategies and pNGB DM benchmark models that we discuss can serve as a starting point for dedicated experimental analyses by the ATLAS and the CMS collaborations.