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Main Authors: Rosell, Ignasi, Pich, Antonio, Sanz-Cillero, Juan Jose
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.15826
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author Rosell, Ignasi
Pich, Antonio
Sanz-Cillero, Juan Jose
author_facet Rosell, Ignasi
Pich, Antonio
Sanz-Cillero, Juan Jose
contents Experiments have confirmed the presence of a mass gap between the Standard Model and potential New Physics. Consequently, the exploration of effective field theories to detect signals indicative of Physics Beyond the Standard Model is of great interest. In this study, we examine a non-linear realization of the electroweak symmetry breaking, wherein the Higgs is a singlet with independent couplings, and Standard Model fields are additionally coupled to heavy bosonic resonances. We present a next-to-leading-order determination of the oblique $S$ and $T$ parameters. Comparing our predictions with experimental values allows us to impose constraints on resonance masses, requiring them to exceed the TeV scale ($M_R > 2\,$TeV). This finding aligns with our earlier analysis, employing a less generalized approach and the experimental bounds of that time, where we computed these observables.
format Preprint
id arxiv_https___arxiv_org_abs_2410_15826
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Analysis of beyond the Standard Model resonances with effective approaches and oblique parameters
Rosell, Ignasi
Pich, Antonio
Sanz-Cillero, Juan Jose
High Energy Physics - Phenomenology
Experiments have confirmed the presence of a mass gap between the Standard Model and potential New Physics. Consequently, the exploration of effective field theories to detect signals indicative of Physics Beyond the Standard Model is of great interest. In this study, we examine a non-linear realization of the electroweak symmetry breaking, wherein the Higgs is a singlet with independent couplings, and Standard Model fields are additionally coupled to heavy bosonic resonances. We present a next-to-leading-order determination of the oblique $S$ and $T$ parameters. Comparing our predictions with experimental values allows us to impose constraints on resonance masses, requiring them to exceed the TeV scale ($M_R > 2\,$TeV). This finding aligns with our earlier analysis, employing a less generalized approach and the experimental bounds of that time, where we computed these observables.
title Analysis of beyond the Standard Model resonances with effective approaches and oblique parameters
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2410.15826