We present a global analysis of the Higgs and electroweak sector based on LHC
Run II and electroweak precision observables. We show which measurements
provide the leading constraints on Higgs-related operators, and how the
achieved LHC precision makes it necessary to combine rate measurements with
electroweak precision observables. The SFitter framework allows us to include
kinematic distributions beyond pre-defined ATLAS and CMS observables,
independently study correlations, and avoid Gaussian assumptions for theory
uncertainties. These Run II results are a step towards a precision physics
program at the LHC, interpreted in terms of effective operators.
Description
[1812.07587] The Gauge-Higgs Legacy of the LHC Run II
%0 Generic
%1 biekotter2018gaugehiggs
%A Biekötter, Anke
%A Corbett, Tyler
%A Plehn, Tilman
%D 2018
%K eft
%R 10.21468/SciPostPhys.6.6.064
%T The Gauge-Higgs Legacy of the LHC Run II
%U http://arxiv.org/abs/1812.07587
%X We present a global analysis of the Higgs and electroweak sector based on LHC
Run II and electroweak precision observables. We show which measurements
provide the leading constraints on Higgs-related operators, and how the
achieved LHC precision makes it necessary to combine rate measurements with
electroweak precision observables. The SFitter framework allows us to include
kinematic distributions beyond pre-defined ATLAS and CMS observables,
independently study correlations, and avoid Gaussian assumptions for theory
uncertainties. These Run II results are a step towards a precision physics
program at the LHC, interpreted in terms of effective operators.
@misc{biekotter2018gaugehiggs,
abstract = {We present a global analysis of the Higgs and electroweak sector based on LHC
Run II and electroweak precision observables. We show which measurements
provide the leading constraints on Higgs-related operators, and how the
achieved LHC precision makes it necessary to combine rate measurements with
electroweak precision observables. The SFitter framework allows us to include
kinematic distributions beyond pre-defined ATLAS and CMS observables,
independently study correlations, and avoid Gaussian assumptions for theory
uncertainties. These Run II results are a step towards a precision physics
program at the LHC, interpreted in terms of effective operators.},
added-at = {2021-09-21T22:22:01.000+0200},
author = {Biekötter, Anke and Corbett, Tyler and Plehn, Tilman},
biburl = {https://www.bibsonomy.org/bibtex/25444b6876a23ddb4da0d69ed38e48356/hami},
description = {[1812.07587] The Gauge-Higgs Legacy of the LHC Run II},
doi = {10.21468/SciPostPhys.6.6.064},
interhash = {c6b336a4f1d819c36c867d14e3261fd3},
intrahash = {5444b6876a23ddb4da0d69ed38e48356},
keywords = {eft},
note = {cite arxiv:1812.07587Comment: 16 pages, 8 figures, comments added},
timestamp = {2021-09-21T22:22:01.000+0200},
title = {The Gauge-Higgs Legacy of the LHC Run II},
url = {http://arxiv.org/abs/1812.07587},
year = 2018
}