== 4-fermion EFT ttll (l=e,mu) == Authors: * Yoav Afik (yoavafik@campus.technion.ac.il) (1) * Shaouly Bar-Shalom (shaouly@physics.technion.ac.il) (2) * Kuntal Pal (3) * Amarjit Soni (4) * Jose Wudka (3) (1) Experimental Physics Department, CERN, Geneva, Switzerland (2) Department of Physics, Technion: Israel Institute of Technology Haifa, Israel (3) Department of Physics, University of California, Riverside, CA, US (4) Department of Physics, Brookhaven National Laboratory, Upton, NY, US == Description of the model: This is a Contact Interaction model with t-t-l-l terms, for scalar, vector and tensor couplings. The effective Lagrangian of the model is described by: {{{ #!latex \begin{align*} {\cal L}_{tt\ell \ell} = {1\over\Lambda^2} \sum_{i,j=L,R} \biggl[ V_{ij}^\ell \left({\bar \ell} \gamma_\mu P_i \ell \right) \left( \bar t \gamma^\mu P_j t \right) + S_{ij}^\ell \left( {\bar \ell} P_i \ell \right) \left( \bar t P_j t \right) + T_{ij}^\ell \left( {\bar \ell} \sigma_{\mu \nu} P_i \ell \right) \left( \bar t \sigma_{\mu \nu} P_j t \right) \biggr] ~. \end{align*} }}} == Model Files: * [https://feynrules.irmp.ucl.ac.be/attachment/wiki/FourFermionFCNCtqll/4fermion-tqll-models.zip 4fermion-tqll-models.zip] : the full model both at the 4FS and at the 5FS. In the paper we use the 5FS. * Please note there are four models: t-u-l-l Contact Interactions at the 4FS / 5FS, and t-c-l-l Contact Interactions at the 4FS / 5FS. == Commands for MadGraph5_aMC@NLO, for a production of a muon and an anti-muon with a top quark and up to one more jet (NP only): {{{ define p = g u c d s b u~ c~ d~ s~ b~ define j = g u c d s b u~ c~ d~ s~ b~ generate p p > mu+ mu- t t~ NP^2==4 add process p p > mu+ mu- t t~ j NP^2==4 ... set lambdas... set fSrr ... set fTrr ... set fVlr ... set fVrl ... set fVrr ... set fVll ... }}} Where lambdas is the scale of new physics in GeV, fSrr is the coupling of the t-u-l-l scalar operator with right-right chirality of the fermions, etc. For example, if we set fSrr=1 and all other couplings to 0, we get a scalar operator with: {{{ #!latex \begin{align*} {\cal L}_{t\bar t\ell \ell} = {1\over\Lambda^2} \left( {\bar \ell} P_R \ell \right) \left( \bar t P_R t \right) ~. \end{align*} }}} For the scenario of vector coupling, interference with the SM should be considered. This can be done by changing the coupling order in the generation commands: {{{ ... generate p p > mu+ mu- t t~ NP^2==2 add process p p > mu+ mu- t t~ j NP^2==2 ... }}} Both the interference and pure NP contributions can be generated together with: {{{ ... generate p p > mu+ mu- t t~ NP^2>0 add process p p > mu+ mu- t t~ j NP^2>0 ... }}} Note that only operators with the couplings fSrr, fTrr, fVlr, fVrl, fVrr, fVll are generated by this UFO. == References: [1] Afik, Yoav and Bar-Shalom, Shaouly and Pal, Kuntal and Soni, Amarjit and Wudka, Jose. 2111.13711. * Link to paper: https://arxiv.org/abs/2111.13711