# Dreaming Awake: Disentangling the Underlying Physics in Case of a   SUSY-like Discovery at the LHC

**Authors:** Konstantin T. Matchev, Filip Moortgat, Luc Pape

arXiv: 1902.11267 · 2020-01-08

## TL;DR

This review explores methods for extracting detailed physics information from potential SUSY-like discoveries at the LHC, emphasizing the effectiveness of fully hadronic final states for mass reconstruction and model identification.

## Contribution

It extends existing kinematic endpoint methods to fully hadronic topologies and demonstrates their effectiveness through simplified simulations, challenging the traditional focus on leptonic channels.

## Key findings

- Fully hadronic events enable complete mass spectrum determination.
- Leptonic channels are less promising with limited statistics.
- Mass reconstruction allows inference of production cross sections and decay branching ratios.

## Abstract

The purpose of this review is to investigate what kind of physics can be extracted at the LHC, assuming a discovery is made in events with missing transverse momentum, as generically expected in supersymmetry (SUSY) with R-parity conservation. To set the scene, we first discuss the collider phenomenology of the six possible electroweakino benchmark scenarios, as they provide valuable insight into what one might be facing at the LHC. We review the existing methods for mass reconstruction from measured kinematic endpoints in the distributions of suitable variables, e.g., the invariant masses of various sets of visible decay products, as well as the $M_{T2}$ and the $M_2$ types of variables. We propose to extend the application of these methods to the various topologies of fully hadronic final states, possibly with hadronically reconstructed massive bosons (W, Z or h). We test the idea with a simplified simulation of events in the main electroweakino benchmark scenarios. We find that the fully hadronic events allow the complete determination of the relevant mass spectrum. For comparison, we also review the potential of the standard kinematic endpoint methods for final states involving leptons from the decays of (on-shell or off-shell) sleptons. We find that with 300 $fb^{-1}$, the statistics for the leptonic events is very marginal and they look less promising than the fully hadronic channels. This corresponds to a complete reversal of the usual paradigm, where leptonic events comprised the gold-plated SUSY channels. Finally, we put together all available information and summarize what level of understanding of the underlying physics can be achieved. We show that, as a by-product of the mass reconstruction, it is also possible to determine the production cross sections and decay branching ratios, which in turn enable us to pinpoint the underlying model.

## Full text

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## Figures

69 figures with captions in the complete paper: https://tomesphere.com/paper/1902.11267/full.md

## References

179 references — full list in the complete paper: https://tomesphere.com/paper/1902.11267/full.md

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Source: https://tomesphere.com/paper/1902.11267