FeynHelpers: connecting feyncalc to FIRE and package-X
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Publication:1738921
DOI10.1016/J.CPC.2017.04.014zbMath1411.81021arXiv1611.06793OpenAlexW2551080060MaRDI QIDQ1738921
Publication date: 23 April 2019
Published in: Computer Physics Communications (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1611.06793
dimensional regularizationloop integralseffective field theoriesfirefeyncalcibppackage-XPassarino-Veltman
Feynman diagrams (81T18) Computational methods for problems pertaining to quantum theory (81-08) Software, source code, etc. for problems pertaining to quantum theory (81-04)
Related Items (17)
Nonperturbative properties of Yang-Mills theories ⋮ Feyncalc 9.3: new features and improvements ⋮ Renormalization group equations for the SMEFT operators up to dimension seven ⋮ FeynGrav 2.0 ⋮ Positivity bounds at one-loop level: the Higgs sector ⋮ On the 3-3-1 Landau pole ⋮ Matching the standard model to heavy-quark effective theory and nonrelativistic QCD ⋮ On two body gravitational scattering within perturbative gravity ⋮ DoFun 3.0: functional equations in Mathematica ⋮ Dimensional regularization and Breitenlohner-Maison/'t Hooft-Veltman scheme for \(\gamma_5\) applied to chiral YM theories: full one-loop counterterm and RGE structure ⋮ \textit{Package}-X 2.0: a \textit{Mathematica} package for the analytic calculation of one-loop integrals ⋮ FormTracer. A Mathematica tracing package using FORM ⋮ Two-loop application of the Breitenlohner-Maison/'t Hooft-Veltman scheme with non-anticommuting \(\gamma_5\): full renormalization and symmetry-restoring counterterms in an abelian chiral gauge theory ⋮ Quark-gluon backscattering in the Regge limit at one-loop ⋮ Bound-state formation, dissociation and decays of darkonium with potential non-relativistic Yukawa theory for scalar and pseudoscalar mediators ⋮ Maximal transcendental weight contribution of scattering amplitudes ⋮ One-loop matching of the type-II seesaw model onto the standard model effective field theory
Uses Software
Cites Work
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- FIRE5: a C++ implementation of Feynman integral REduction
- \textsc{APart 2}: a generalized \textsc{Mathematica} \texttt{Apart} function
- FIRE4, LiteRed and accompanying tools to solve integration by parts relations
- \texttt{Reduze} -- Feynman integral reduction in \texttt{C++}
- \$\texttt{Apart}: a generalized \textsc{Mathematica} \texttt{Apart} function
- Reduction schemes for one-loop tensor integrals
- Reducing full one-loop amplitudes to scalar integrals at the integrand level
- TARCER -- a Mathematica program for the reduction of two-loop propagator integrals
- FF - a package to evaluate one-loop Feynman diagrams
- A Feynman diagram analyzer DIANA.
- New developments in FeynCalc 9.0
- QCDLoop: a comprehensive framework for one-loop scalar integrals
- \textsc{Collier}: a Fortran-based complex one-loop library in extended regularizations
- FormTracer. A Mathematica tracing package using FORM
- \texttt{OneLOop}: for the evaluation of one-loop scalar functions
- \texttt{Golem95C}: a library for one-loop integrals with complex masses
- Automatic evaluation of UV and \(R_2\) terms for beyond the standard model Lagrangians: a proof-of-principle
- Package-X: a Mathematica package for the analytic calculation of one-loop integrals
- HIGH-PRECISION CALCULATION OF MULTILOOP FEYNMAN INTEGRALS BY DIFFERENCE EQUATIONS
- On Quantum-Electrodynamics and the Magnetic Moment of the Electron
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