Proposes a numerical cross-validation procedure for SMEFT Monte Carlo implementations by comparing linearized EFT amplitudes and their SM interferences at fixed points.
Rosetta: an operator basis translator for Standard Model effective field theory
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abstract
We introduce Rosetta, a program allowing for the translation between different bases of effective field theory operators. We present the main functions of the program and provide an example of usage. One of the Lagrangians which Rosetta can translate into has been implemented into FeynRules, which allows Rosetta to be interfaced into various high-energy physics programs such as Monte Carlo event generators. In addition to popular bases choices, such as the Warsaw and Strongly Interacting Light Higgs bases already implemented in the program, we also detail how to add new operator bases into the Rosetta package. In this way, phenomenological studies using an effective field theory framework can be straightforwardly performed.
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In a radiative seesaw model, one-loop contributions from Majorana neutrinos to the ZZh vertex produce CP-conserving anomalous couplings of order 10^{-3} potentially observable at future lepton colliders, while CP-violating effects remain suppressed.
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Proposal for the validation of Monte Carlo implementations of the standard model effective field theory
Proposes a numerical cross-validation procedure for SMEFT Monte Carlo implementations by comparing linearized EFT amplitudes and their SM interferences at fixed points.
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New physics in the $ZZh$ vertex: One-loop contributions from a radiative seesaw model
In a radiative seesaw model, one-loop contributions from Majorana neutrinos to the ZZh vertex produce CP-conserving anomalous couplings of order 10^{-3} potentially observable at future lepton colliders, while CP-violating effects remain suppressed.