Constraints on $L_μ- L_Ï$ interactions at the LHC and beyond
arXiv:1511.04107 · doi:10.1103/PhysRevD.93.015022
Abstract
In this paper we examine the constraints dedicated LHC multi lepton searches can place on $Z'$ bosons coming from gauged muon number minus tau number, $L_μ-L_Ï$. As the $L_μ-L_Ï$ gauge boson does not couple to proton constituents or electrons at tree level, the current bounds are fairly loose, especially for $M_{Z'} \gtrsim 1\, \rm GeV$. For $2m_μ < M_{Z'} < M_Z/2$ we develop search strategies using the $pp \rightarrow Z \to 4\, μ$ channel. The cleanliness of the final state, combined with the fact that $pp \to Z \to 4 e$, $Z \to 2e\,2μ$ can be used as background control samples, allow us to spot $L_μ-L_Ï$ $Z'$ with couplings $\mathcal O(10^{-3})$ times the Standard Model couplings. For lighter $Z'$, we propose the mode $pp \rightarrow 2μ+ \displaystyle{\not} E_T$. The presence of missing energy means there is a wider set of backgrounds to consider in this final state, such as Drell-Yan production of leptonically decaying $Ï$ pairs, however we find these can be controlled with careful cuts. Combining the $4\, μ$ and $2\,μ+ \displaystyle{\not} E_T$ modes, we find that with $\sim3 \, \text{ab}^{-1}$ of integrated luminosity we are sensitive to couplings $g_{Z'} \gtrsim 0.005\, g_1$ and $0.5\, \rm GeV \le M_{Z'} \le 40\, \rm GeV$ and $g_{Z'} \gtrsim 0.001\, g_1$ for $M_{Z'} < 2\, m_μ$. This region includes the parameter space where $L_μ-L_Ï$ models can ameliorate the muon $g-2$ anomaly. We repeat these analyses at a future $e^+e^-$ Z-factory, where we find improved sensitivity. Specifically, given $2.6\, \rm ab^{-1}$ of luminosity, we can exclude $g_{Z'} \gtrsim 0.001\, g_1$ for $2\, m_μ \le M_{Z'} \le M_Z/2$.
version accepted for publication in PRD