Abstract: A consistent framework for studying Standard Model deviations is developed. It assumes that New Physics becomes relevant at some scale beyond the present experimental reach and uses the Effective Field Theory approach by adding higher-dimensional operators to the Standard Model Lagrangian and by computing relevant processes at the next-to-leading order, extending the original κ -framework. The generalized κ -framework provides a useful technical tool to decompose amplitudes at NLO accuracy into a sum of well defined gauge-invariant sub components.
Ghezzi, M., Gomez Ambrosio, R., Passarino, G., Uccirati, S. (2015). NLO Higgs effective field theory and κ-framework. JOURNAL OF HIGH ENERGY PHYSICS, 2015(7) [10.1007/JHEP07(2015)175].
NLO Higgs effective field theory and κ-framework
Gomez Ambrosio, Raquel;
2015
Abstract
Abstract: A consistent framework for studying Standard Model deviations is developed. It assumes that New Physics becomes relevant at some scale beyond the present experimental reach and uses the Effective Field Theory approach by adding higher-dimensional operators to the Standard Model Lagrangian and by computing relevant processes at the next-to-leading order, extending the original κ -framework. The generalized κ -framework provides a useful technical tool to decompose amplitudes at NLO accuracy into a sum of well defined gauge-invariant sub components.File | Dimensione | Formato | |
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