The MSSM with decoupled scalars at the LHC
Emmanuel Turlay
TL;DR
This paper investigates the Large Hadron Collider's ability to detect the Minimal Supersymmetric Standard Model with heavy scalars, focusing on light inos, and demonstrates how model parameters can be precisely constrained.
Contribution
It provides a detailed phenomenological analysis of the MSSM with decoupled scalars and proposes methods to determine its parameters with high precision.
Findings
Model parameters can be constrained within 15% accuracy.
Light gauginos are key to the detection prospects.
Phenomenological observables are identified for parameter determination.
Abstract
The discovery potential for the MSSM with heavy scalars at the LHC in the case of light inos is examined. We discuss the phenomenology of the model and the observables to determine the parameters. We show that for light gauginos, the model parameters can be constrained with a precision of the order of 15%.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Black Holes and Theoretical Physics · High-Energy Particle Collisions Research