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| | 3 | == Effective field theory for weak boson pair production == |
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| | 5 | Author : Celine Degrande |
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| | 7 | References : |
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| | 9 | * C. Degrande, N. Greiner, W. Kilian, O. Mattelaer, H. Mebane, T. Stelzer, S. Willenbrock, C. Zhang, arXiv:1205.4231 [hep-ph] |
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| | 12 | == Description == |
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| | 14 | This FeynRules model is the implementation of the weak boson effective field theory described in arXiv:1205.4231 [hep-ph]. Namely, the model contains all the five dimension-six operators that modify the triple gauge boson vertices. Their coefficients can be set in the param_card.dat. The parameters in the param_card are the full coefficients, i.e. c_i/\Lambda^2 and are in TeV$^-2$. The name are self-explanatory, $c_{WWW}/\Lambda^2$ is called CWWWL2 and similarly for $c_W$ and $c_B$, the coefficients of the CP violating operators $O_{\tilde{W}WW}$ and $O_{\tilde{W}}$ are CPWWWL2 and CPWL2 respectively. The new interaction has also an order NP (for new physics) which is the power of ($1/\Lambda$) of the amplitude. For example, an amplitude with one vertex for a dimension-six operator is proportional to $1/\Lambda^2$ and has NP=2. |
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| | 17 | || '''Operator''' ||'''Coefficient'''|| '''param_card name''' || '''limit at 68% C.L.(TeV$^{-2}$)''' || |
| | 18 | ||'''$\mbox{Tr}[W_{\mu\nu}W^{\nu\rho}W_{\rho}^{\mu}]$'''|| '''$c_{WWW}/\Lambda^2$''' || CWWWL2 || [-11.9 , -1.94] || |
| | 19 | ||'''$(D_\mu\Phi)^\dagger W^{\mu\nu}(D_\nu\Phi)$'''|| '''$c_{W}/\Lambda^2$''' || CWL2 || [-8.42 , 1.44] || |
| | 20 | ||'''$(D_\mu\Phi)^\dagger B^{\mu\nu}(D_\nu\Phi)$'''|| '''$c_{B}/\Lambda^2$''' || CBL2 || [-7.9 , 14.9] || |
| | 21 | ||'''$\mbox{Tr}[\tilde{W}_{\mu\nu}W^{\nu\rho}W_{\rho}^{\mu}]$'''|| '''$c_{\tilde{W}WW}/\Lambda^2$''' || CPWWWL2 || [-185.3 , -82.4] || |
| | 22 | ||'''$(D_\mu\Phi)^\dagger \tilde{W}^{\mu\nu}(D_\nu\Phi)$'''|| '''$c_{\tilde{W}}/\Lambda^2$''' || CPWL2 || [-39.3 , -4.9] || |
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| | 24 | The limits have been obtained by inverting the values of the anomalous couplings from the PDG 2012. |
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