Dark Matter phenomenology of GUT Inspired simplified models

TL;DR

This paper explores dark matter models with fermionic particles interacting via spin 1 mediators, emphasizing fixed coupling assignments inspired by theoretical models to predict testable signals for future experiments.

Contribution

It introduces a novel approach by fixing mediator couplings based on theoretical embeddings, enabling more precise predictions for experimental tests.

Findings

Predicted signals for future detection experiments.

Discriminated between different model realizations.

Enhanced understanding of collider and direct detection phenomenology.

Abstract

We discuss some aspects of dark matter phenomenology, in particular related to Direct detection and collider searches, of models in which a fermionic Dark Matter interacts with SM fermions through spin 1 mediators. Contrary to conventional simplified models we will consider fixed assignments of the couplings of the ($Z^{'}$) mediator, according theoretically motivated embeddings. This allows to predict signals at future experimental facilities which can be used to test and possibly discriminate different realizations.