\texttt{SmeftFR} v3 -- Feynman rules generator for the standard model effective field theory
DOI10.1016/J.CPC.2023.108943arXiv2302.01353MaRDI QIDQ6086781
Athanasios Dedes, Kristaq Suxho, Janusz Rosiek, L. Trifyllis, M. Ryczkowski
Publication date: 10 November 2023
Published in: Computer Physics Communications (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/2302.01353
Unified quantum theories (81V22) Estimates of eigenvalues in context of PDEs (35P15) Feynman diagrams (81T18) Feynman integrals and graphs; applications of algebraic topology and algebraic geometry (81Q30) Yang-Mills and other gauge theories in mechanics of particles and systems (70S15) Vertex subsets with special properties (dominating sets, independent sets, cliques, etc.) (05C69) Lagrange's equations (70H03) Bosonic systems in quantum theory (81V73) Effective quantum field theories (81T12) Special bases (entangled, mutual unbiased, etc.) (81P55)
Cites Work
- The automated computation of tree-level and next-to-leading order differential cross sections, and their matching to parton shower simulations
- Renormalization group evolution of the standard model dimension six operators. I: Formalism and \(\lambda\) dependence
- Axodraw.
- New developments in FeynCalc 9.0
- Universal scalar leptoquark action for matching
- MatchingTools: a python library for symbolic effective field theory calculations
- Higgs physics confronts the \(M_W\) anomaly
- Dimension-six terms in the Standard Model Lagrangian
- CalcHEP 3.4~for collider physics within and beyond the standard model
- \texttt{SmeftFR} -- Feynman rules generator for the standard model effective field theory
- Generating Feynman diagrams and amplitudes with FeynArts 3
- \texttt{WCxf}: an exchange format for Wilson coefficients beyond the standard model
This page was built for publication: \texttt{SmeftFR} v3 -- Feynman rules generator for the standard model effective field theory
