Setting Limits on Supersymmetry Using Simplified Models

Overview

This paper presents a protocol for translating experimental limits from simplified models into conservative and aggressive limits applicable to new physics models. The methodology allows for the use of existing LHC experimental results to derive limits on various new physics models with signatures similar to supersymmetry.

Key Study Components

Area of Science

• Particle Physics
• Experimental Physics
• Theoretical Physics

Background

• New physics models often require validation against existing experimental data.
• Simplified models serve as a bridge to understand complex new physics scenarios.
• Limits on simplified models can inform broader theoretical frameworks.
• Existing LHC results provide a rich source of data for analysis.

Purpose of Study

• To apply existing limits on simplified models to new physics models.
• To ensure comprehensive coverage of processes in new physics models.
• To demonstrate that approximate limits can be derived without extensive Monte Carlo simulations.

Methods Used

• Deconstruction of new physics models into constituent processes.
• Compilation of a list of relevant simplified models.
• Validation of kinematics between simplified and full models.
• Conversion of existing limits into new physics model limits.

Main Results

• Established a systematic approach to recast limits from simplified models.
• Demonstrated the feasibility of using existing data for new physics constraints.
• Provided a framework for future studies on new physics models.
• Showed that limits can be approximated without dedicated Monte Carlo studies.

Conclusions

• The protocol effectively bridges simplified and new physics models.
• Existing LHC results can be leveraged for broader theoretical implications.
• This approach enhances the understanding of new physics signatures.

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