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Auteurs principaux: Cao, Qing-Hong, Liu, Yandong, Yuan, Shu-Run
Format: Preprint
Publié: 2023
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Accès en ligne:https://arxiv.org/abs/2309.14079
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author Cao, Qing-Hong
Liu, Yandong
Yuan, Shu-Run
author_facet Cao, Qing-Hong
Liu, Yandong
Yuan, Shu-Run
contents The equivalence between the Warsaw and SILH bases in Standard Model Effective Field Theory is well established, with transformation rules connecting the two via equations of motion and field redefinitions. This study presents an explicit calculation of the analytical unitarity bounds-defined as the marginal limit of the parameter space-for dimension-six operators within both the Warsaw and SILH bases. We employ a coupled channel analysis to scrutinize scattering processes involving vector bosons and fermions. We conduct a comprehensive investigation into the transformation of unitarity bounds under changes in the operator basis. Our findings demonstrate that the transformation rules, as implicated by the equivalence theorem, can be directly applied to convert unitarity bounds from one basis to another, provided that the operators involved in the transformation rules do not belong to the same subset defined by a block in the coupled channel matrix.
format Preprint
id arxiv_https___arxiv_org_abs_2309_14079
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Unitarity Bounds and Basis Transformations in SMEFT: An Analysis of Warsaw and SILH Bases
Cao, Qing-Hong
Liu, Yandong
Yuan, Shu-Run
High Energy Physics - Phenomenology
The equivalence between the Warsaw and SILH bases in Standard Model Effective Field Theory is well established, with transformation rules connecting the two via equations of motion and field redefinitions. This study presents an explicit calculation of the analytical unitarity bounds-defined as the marginal limit of the parameter space-for dimension-six operators within both the Warsaw and SILH bases. We employ a coupled channel analysis to scrutinize scattering processes involving vector bosons and fermions. We conduct a comprehensive investigation into the transformation of unitarity bounds under changes in the operator basis. Our findings demonstrate that the transformation rules, as implicated by the equivalence theorem, can be directly applied to convert unitarity bounds from one basis to another, provided that the operators involved in the transformation rules do not belong to the same subset defined by a block in the coupled channel matrix.
title Unitarity Bounds and Basis Transformations in SMEFT: An Analysis of Warsaw and SILH Bases
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2309.14079