# Direct Detection and LHC constraints on a $t$-Channel Simplified Model   of Majorana Dark Matter at One Loop

**Authors:** Kirtimaan A. Mohan, Dipan Sengupta, Tim M.P Tait, Bin Yan, C.-P. Yuan

arXiv: 1903.05650 · 2022-03-21

## TL;DR

This paper investigates a Majorana dark matter model with a scalar mediator, showing that one-loop corrections are crucial for understanding direct detection and LHC constraints, which are complementary in probing the model.

## Contribution

It provides a one-loop analysis of a Majorana dark matter model, highlighting the importance of loop effects in constraining the model from direct detection and collider experiments.

## Key findings

- Spin-independent scattering constraints are dominant despite being a higher-order effect.
- One-loop LHC constraints significantly impact the interpretation of collider searches.
- Loop corrections are essential for accurate phenomenological analysis.

## Abstract

An interesting class of models posits that the dark matter is a Majorana fermion which interacts with a quark together with a colored scalar mediator. Such a theory can be tested in direct detection experiments, through dark matter scattering with heavy nuclei, and at the LHC, via jets and missing energy signatures. Motivated by the fact that such theories have spin-independent interactions that vanish at tree level, we examine them at one loop (along with RGE improvement to resum large logs), and find that despite its occurrence at a higher order of perturbation theory, the spin-independent scattering searches typically impose the strongest constraints on the model parameter space. We further analyze the corresponding LHC constraints at one loop and find that it is important to take them into account when interpreting the implications of searches for jets plus missing momentum on this class of models, thus providing the corresponding complementary information for this class of models.

## Full text

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## Figures

43 figures with captions in the complete paper: https://tomesphere.com/paper/1903.05650/full.md

## References

58 references — full list in the complete paper: https://tomesphere.com/paper/1903.05650/full.md

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Source: https://tomesphere.com/paper/1903.05650