Supersymmetry Searches at e^+e^- Linear Colliders
Jan Kalinowski
TL;DR
This paper reviews the potential of future e^+e^- linear colliders, operating at 500 GeV to 2 TeV, for discovering, studying, and testing supersymmetry and grand unification theories.
Contribution
It provides an overview of the physics capabilities of upcoming linear colliders for supersymmetry research and precision measurements.
Findings
Linear colliders can discover supersymmetric particles within their energy range.
High precision measurements will help understand supersymmetry breaking mechanisms.
Colliders will enable tests of grand unification scenarios.
Abstract
The physics potential of discovering and exploring supersymmetry at future e^+e^- linear colliders is reviewed. Such colliders are planned to start to operate at a center-of-mass energy of 500 GeV to 800 GeV, with a final energy of about 2 TeV expected. They are ideal facilities for the discovery of supersymmetric particles. High precision measurements of their properties and interactions will help to uncover the mechanism of supersymmetry breaking and will allow for tests of grand unification scenarios.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Computational Physics and Python Applications · Dark Matter and Cosmic Phenomena