Exact SMEFT formulation and expansion to O(ν4/λ4)

Chris Hays; Andreas Helset; Adam Martin; Michael Trott

doi:10.1007/JHEP11(2020)087

Exact SMEFT formulation and expansion to O(ν⁴/λ⁴)

Chris Hays^*, Andreas Helset, Adam Martin, Michael Trott

^*Corresponding author af dette arbejde

Teoretisk højenergi, astropartikel og gravitationel fysik

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

47 Citationer (Scopus)

36 Downloads (Pure)

Abstract

The Standard Model Effective Field Theory (SMEFT) theoretical framework is increasingly used to interpret particle physics measurements and constrain physics beyond the Standard Model. We investigate the truncation of the effective-operator expansion using the geometric formulation of the SMEFT, which allows exact solutions, up to mass-dimension eight. Using this construction, we compare the exact solution to the expansion at O(v(2)/Lambda (2)), partial O(v(4)/Lambda (4)) using a subset of terms with dimension-6 operators, and full O(v(4)/Lambda (4)), where v is the vacuum expectation value and Lambda is the scale of new physics. This comparison is performed for general values of the coefficients, and for the specific model of a heavy U(1) gauge field kinetically mixed with the Standard Model. We additionally determine the input-parameter scheme dependence at all orders in v/Lambda, and show that this dependence increases at higher orders in v/Lambda.

Originalsprog	Engelsk
Artikelnummer	87
Tidsskrift	Journal of High Energy Physics
Vol/bind	2020
Udgave nummer	11
Antal sider	47
ISSN	1029-8479
DOI	https://doi.org/10.1007/JHEP11(2020)087
Status	Udgivet - 17 nov. 2020

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10.1007/JHEP11(2020)087Licens: CC BY

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Citationsformater

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N2 - The Standard Model Effective Field Theory (SMEFT) theoretical framework is increasingly used to interpret particle physics measurements and constrain physics beyond the Standard Model. We investigate the truncation of the effective-operator expansion using the geometric formulation of the SMEFT, which allows exact solutions, up to mass-dimension eight. Using this construction, we compare the exact solution to the expansion at O(v(2)/Lambda (2)), partial O(v(4)/Lambda (4)) using a subset of terms with dimension-6 operators, and full O(v(4)/Lambda (4)), where v is the vacuum expectation value and Lambda is the scale of new physics. This comparison is performed for general values of the coefficients, and for the specific model of a heavy U(1) gauge field kinetically mixed with the Standard Model. We additionally determine the input-parameter scheme dependence at all orders in v/Lambda, and show that this dependence increases at higher orders in v/Lambda.

AB - The Standard Model Effective Field Theory (SMEFT) theoretical framework is increasingly used to interpret particle physics measurements and constrain physics beyond the Standard Model. We investigate the truncation of the effective-operator expansion using the geometric formulation of the SMEFT, which allows exact solutions, up to mass-dimension eight. Using this construction, we compare the exact solution to the expansion at O(v(2)/Lambda (2)), partial O(v(4)/Lambda (4)) using a subset of terms with dimension-6 operators, and full O(v(4)/Lambda (4)), where v is the vacuum expectation value and Lambda is the scale of new physics. This comparison is performed for general values of the coefficients, and for the specific model of a heavy U(1) gauge field kinetically mixed with the Standard Model. We additionally determine the input-parameter scheme dependence at all orders in v/Lambda, and show that this dependence increases at higher orders in v/Lambda.

KW - Beyond Standard Model

KW - Effective Field Theories

KW - INFRARED SINGULARITIES

KW - HIGGS

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