swMATH ID: 28087
Software Authors: Ben Gripaios, Dave Sutherland
Description: DEFT: A program for operators in EFT. We describe a Python-based computer program, DEFT, for manipulating operators in effective field theories (EFTs). In its current incarnation, DEFT can be applied to 4-dimensional, Poincaré invariant theories with gauge group SU(3)×SU(2)×U(1), such as the Standard Model (SM), but a variety of extensions (e.g. to lower dimensions or to an arbitrary product of unitary gauge groups) are conceptually straightforward. Amongst other features, the program is able to: (i) check whether an input list of Lagrangian operators (of a given dimension in the EFT expansion) is a basis for the space of operators contributing to S-matrix elements, once redundancies (such as Fierz-Pauli identities, integration by parts, and equations of motion) are taken into account; (ii) generate such a basis (where possible) from an input algorithm; (iii) carry out a change of basis. We describe applications to the SM (where we carry out a number of non-trivial cross-checks) and extensions thereof, and outline how the program may be of use in precision tests of the SM and in the ongoing search for new physics at the LHC and elsewhere. The code and instructions can be downloaded from this http http://web.physics.ucsb.edu/ dwsuth/DEFT/
Homepage: https://arxiv.org/abs/1807.07546
Keywords: High Energy Physics; arXiv_hep-ph; Python; effective field theory; EFT; Standard Model; SM
Related Software: BasisGen; MatchingTools; CoDEx; FeynRules; FORM; STrEAM; DsixTools; Wilson; Matchmakereft; GrIP; flavio; SuperTracer; SmeftFR; SMEFTsim; Mathematica; Python; Rosetta; ABC4EFT; PYTHIA8; FastJet
Cited in: 8 Documents

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1 Publication describing the Software Year
DEFT: A program for operators in EFT arXiv
Ben Gripaios, Dave Sutherland

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