TL;DR
This paper classifies new vector bosons within extended gauge symmetries of the Standard Model, providing a model-independent framework for their interactions, with applications to Higgs and top physics and considerations of electroweak precision constraints.
Contribution
It introduces a model-independent classification scheme for vector bosons in gauge extensions of the Standard Model and discusses their phenomenological implications.
Findings
Electroweak precision limits constrain new vector bosons.
Framework facilitates both direct and indirect searches.
Applications to Higgs and top physics demonstrate utility.
Abstract
The invariance of extensions of the Standard Model under the full SU(3)XSU(2)XU(1) gauge group can be used to classify general vector bosons and to write their interactions in a model-independent fashion. This description is useful for both direct and indirect searches. We comment on electroweak precision limits and show some simple applications to Higgs and top physics.
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Taxonomy
TopicsParticle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions · Computational Physics and Python Applications