Supersymmetric Phenomenology in the mSUGRA Parameter Space
Irene Niessen
TL;DR
This thesis explores supersymmetric phenomenologies in low-mass mSUGRA, presenting a systematic prediction method from mass spectra and comparing scenarios to ATLAS benchmarks, revealing some scenarios are not covered.
Contribution
Introduces a systematic method to predict supersymmetric phenomenology directly from the mass spectrum in low-mass mSUGRA models.
Findings
Some phenomenological scenarios are not represented by current ATLAS benchmark points.
The mass spectrum characteristics can be used to predict phenomenology.
Comparison highlights gaps in existing benchmark coverage.
Abstract
In this master thesis the possible supersymmetric phenomenologies associated with low-mass mSUGRA are investigated. The main characteristics of the supersymmetric mass spectrum are explained and a systematic method is presented to predict phenomenology directly from the mass spectrum. The resulting phenomenologies are compared to the current ATLAS benchmark points. It is found that some phenomenological scenarios are not covered by these benchmark points.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Cosmology and Gravitation Theories · Black Holes and Theoretical Physics