Simplified models of dark matter with a long-lived co-annihilation partner

Valentin V Khoze,Alexis D Plascencia,Kazuki Sakurai

doi:10.1007/jhep06(2017)041

Valentin V Khoze, Alexis D Plascencia + Show 1 more

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https://doi.org/10.1007/jhep06(2017)041

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Abstract

We introduce a new set of simplified models to address the effects of 3-point interactions between the dark matter particle, its dark co-annihilation partner, and the Standard Model degree of freedom, which we take to be the tau lepton. The contributions from dark matter co-annihilation channels are highly relevant for a determination of the correct relic abundance. We investigate these effects as well as the discovery potential for dark matter co-annihilation partners at the LHC. A small mass splitting between the dark matter and its partner is preferred by the co-annihilation mechanism and suggests that the co-annihilation partners may be long-lived (stable or meta-stable) at collider scales. It is argued that such long-lived electrically charged particles can be looked for at the LHC in searches of anomalous charged tracks. This approach and the underlying models provide an alternative/complementarity to the mono-jet and multi-jet based dark matter searches widely used in the context of simplified models with s-channel mediators. We consider four types of simplified models with different particle spins and coupling structures. Some of these models are manifestly gauge invariant and renormalizable, others would ultimately require a UV completion. These can be realised in terms of supersymmetric models in the neutralino-stau co-annihilation regime, as well as models with extra dimensions or composite models.

Highlights

Viable DM candidate, any evidence of DM production at colliders would be a signal of new physics, the discovery of which is arguably one of the most important goals in the field
We introduce a class of simplified models that enables us to study the phenomenology of the dark sector containing a co-annihilation partner
In this article we considered an alternative DM scenario characterised by simplified models without mediators

Summary

Introduction

Viable DM candidate, any evidence of DM production at colliders would be a signal of new physics, the discovery of which is arguably one of the most important goals in the field. The alternative framework is the simplified model approach, in which sets of phenomenological models are constructed with a minimal particle content to describe various experimental signatures This approach turns out to be very useful and searches for dark matter at colliders are commonly described in terms of simplified models with scalar, pseudo-scalar, vector and axial-vector mediators [34,35,36,37]. These simplified models have become the main vehicle for interpreting DM searches at the LHC [38, 39] and for projecting the DM reach of future hadron colliders [40,41,42]. For recent examples and studies of such ‘next-to-simplified models’ we refer the reader to refs. [43,44,45,46,47,48,49]

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