Version 10 (modified by 6 years ago) ( diff ) | ,
---|
4-fermion EFT with FCNC implementation
Authors:
- Yoav Afik (yoavafik@…)
- Jonathan Cohen (jcohen@…)
- Eitan Gozani
- Enrique Kajomovitz
- Yoram Rozen
Department of Physics, Technion: Israel Institute of Technology Haifa, Israel
Description of the model:
This is a Contact Interaction model with b-s-l-l FCNC terms. The lagrangian of the model is described by:
\begin{eqnarray} \mathcal{L}_{eff} = \frac{C_{ij}^{U \mu}}{v^2} (\bar{u}_{L}^{i} \gamma_{\mu} u_{L}^{j}) (\bar{\mu}_{L} \gamma^{\mu} \mu_{L}) + \frac{C_{ij}^{D \mu}}{v^2} (\bar{d}_{L}^{i} \gamma_{\mu} d_{L}^{j}) (\bar{\mu}_{L} \gamma^{\mu} \mu_{L}) + \\ \frac{C_{ij}^{U e}}{v^2} (\bar{u}_{L}^{i} \gamma_{\mu} u_{L}^{j}) (\bar{e}_{L} \gamma^{\mu} e_{L}) + \frac{C_{ij}^{D e}}{v^2} (\bar{d}_{L}^{i} \gamma_{\mu} d_{L}^{j}) (\bar{e}_{L} \gamma^{\mu} e_{L}) \end{eqnarray}
Only the off-diagonal elements for the b-s admixtures are considered, since those are the ones related to the observed b-s-l-l anomalies. The matrices take the form:
\begin{eqnarray} C_{ij}^{U \mu} = \begin{pmatrix} C_{u \mu} & 0 & 0 \\ 0 & C_{c \mu} & 0 \\ 0 & 0 & C_{t \mu} \end{pmatrix} , C_{ij}^{D \mu} = \begin{pmatrix} C_{d \mu} & 0 & 0 \\ 0 & C_{s \mu} & C_{b s \mu}^{*} \\ 0 & C_{b s \mu} & C_{b \mu} \end{pmatrix} \end{eqnarray} \begin{eqnarray} C_{ij}^{U e} = \begin{pmatrix} C_{u e} & 0 & 0 \\ 0 & C_{c e} & 0 \\ 0 & 0 & C_{t e} \end{pmatrix} , C_{ij}^{D e} = \begin{pmatrix} C_{d e} & 0 & 0 \\ 0 & C_{s e} & C_{b s e}^{*} \\ 0 & C_{b s e} & C_{b e} \end{pmatrix} \end{eqnarray}
The presumed scale and coupling of the new physics, is estimated by defining:
\begin{align} C_{bs\mu} = g_{*}^2 v^2 / \Lambda^2. \end{align}
- Please note that the model is normalized according to Λ = 1TeV and g* = 1. For example, if you want to set Λ = 2TeV and g* = 1 for electrons coupling for b-s admixtures, just set Celbs in the param_card to be 0.25.
- A more simple model is also attached, contains only the b-s-l-l non-diagonal terms for simplicity.
Model Files:
- bsll_5FS_full.zip : the full model.
- bsll_5FS_non-diagonal.zip : only the non-diagonal terms.
Commands for MadGraph5_aMC@NLO:
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- add process p p > mu+ mu- j add process p p > mu+ mu- j j
References:
[1] Afik, Y., Cohen, J., Gozani, E. et al. J. High Energ. Phys. (2018) 2018: 56.
- Link to paper: https://link.springer.com/article/10.1007/JHEP08(2018)056
[2] Greljo, A. & Marzocca, D. Eur. Phys. J. C (2017) 77: 548.
Attachments (2)
- bsll_5FS_full.zip (44.9 KB ) - added by 6 years ago.
- bsll_5FS_non-diagonal.zip (44.7 KB ) - added by 6 years ago.
Download all attachments as: .zip